Course Information

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).
Taught in person.

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 19. 2. to Sun 26. 5. Wed 8:00–9:50 B11/305

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Mass spectrometry (prof. Jan Preisler).

Literature

• SKOOG, Douglas A., F. James HOLLER and Stanley R. CROUCH. Principles of instrumental analysis. Seventh edition. Boston: Cengage Learning, 2018, xx, 959. ISBN 9781305577213. info
• SKOOG, Douglas A., Donald M. WEST, F. James HOLLER and Stanley R. CROUCH. Analytická chemie. Translated by Karel Nesměrák - Václav Červený - Tomáš Křížek - Eliška. Vydání první. Praha: Vysoká škola chemicko-technologická v Praze, 2019, xxx, 950. ISBN 9788075920430. info
• Skoog D.A., West D.M., Holler F.J., Fundamentals of Analytical Chemistry, CENGAGE Boston 2022.
• HARRIS, Daniel C. and Charles A. LUCY. Quantitative chemical analysis. Tenth edition. New York: Macmillan International Higher Education, 2020, 1 svazek. ISBN 9781319324506. info
• CHRISTIAN, Gary D., Purnendu K. DASGUPTA and Kevin SCHUG. Analytical chemistry. 7th ed. Hoboken, N.J.: Wiley, 2014, xxii, 826. ISBN 9780470887578. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• GRANGER, Robert M., Hank M. YOCHUM, Jill N. GRANGER and Karl D. SIENERTH. Instrumental analysis. Revised first edition. New York: Oxford University Press, 2017, xxxii, 846. ISBN 9780190865337. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• ROUESSAC, Francis and Annick ROUESSAC. Chemical analysis : modern instrumentation methods and techniques. 2nd ed. Hoboken, NJ: John Wiley, 2007, xxiii, 574. ISBN 9780470859032. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001
• Encyclopedia of analytical chemistry : applications, theory and instrumentation. Edited by Robert A. Meyers. 1st ed. Chichester: John Wiley & Sons, 2011, xiv, 894. ISBN 9780470973332. info
• Encyclopedia of analytical science. Edited by Paul Worsfold - A. Townshend - C. F. Poole. 2nd ed. Amsterdam: Elsevier, 2005, xxxviii, 5. ISBN 0127641017. info
• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).
Taught in person.

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Mass spectrometry (prof. Jan Preisler).

Literature

• SKOOG, Douglas A., F. James HOLLER and Stanley R. CROUCH. Principles of instrumental analysis. Seventh edition. Boston: Cengage Learning, 2018, xx, 959. ISBN 9781305577213. info
• SKOOG, Douglas A., Donald M. WEST, F. James HOLLER and Stanley R. CROUCH. Analytická chemie. Translated by Karel Nesměrák - Václav Červený - Tomáš Křížek - Eliška. Vydání první. Praha: Vysoká škola chemicko-technologická v Praze, 2019, xxx, 950. ISBN 9788075920430. info
• Skoog D.A., West D.M., Holler F.J., Fundamentals of Analytical Chemistry, CENGAGE Boston 2022.
• HARRIS, Daniel C. and Charles A. LUCY. Quantitative chemical analysis. Tenth edition. New York: Macmillan International Higher Education, 2020, 1 svazek. ISBN 9781319324506. info
• CHRISTIAN, Gary D., Purnendu K. DASGUPTA and Kevin SCHUG. Analytical chemistry. 7th ed. Hoboken, N.J.: Wiley, 2014, xxii, 826. ISBN 9780470887578. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• GRANGER, Robert M., Hank M. YOCHUM, Jill N. GRANGER and Karl D. SIENERTH. Instrumental analysis. Revised first edition. New York: Oxford University Press, 2017, xxxii, 846. ISBN 9780190865337. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• ROUESSAC, Francis and Annick ROUESSAC. Chemical analysis : modern instrumentation methods and techniques. 2nd ed. Hoboken, NJ: John Wiley, 2007, xxiii, 574. ISBN 9780470859032. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001
• Encyclopedia of analytical chemistry : applications, theory and instrumentation. Edited by Robert A. Meyers. 1st ed. Chichester: John Wiley & Sons, 2011, xiv, 894. ISBN 9780470973332. info
• Encyclopedia of analytical science. Edited by Paul Worsfold - A. Townshend - C. F. Poole. 2nd ed. Amsterdam: Elsevier, 2005, xxxviii, 5. ISBN 0127641017. info
• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).
Taught in person.

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Thu 12:00–13:50 B11/305

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Mass spectrometry (prof. Jan Preisler).

Literature

• SKOOG, Douglas A., F. James HOLLER and Stanley R. CROUCH. Principles of instrumental analysis. Seventh edition. Boston: Cengage Learning, 2018, xx, 959. ISBN 9781305577213. info
• SKOOG, Douglas A., Donald M. WEST, F. James HOLLER and Stanley R. CROUCH. Analytická chemie. Translated by Karel Nesměrák - Václav Červený - Tomáš Křížek - Eliška. Vydání první. Praha: Vysoká škola chemicko-technologická v Praze, 2019, xxx, 950. ISBN 9788075920430. info
• Skoog D.A., West D.M., Holler F.J., Fundamentals of Analytical Chemistry, CENGAGE Boston 2022.
• HARRIS, Daniel C. and Charles A. LUCY. Quantitative chemical analysis. Tenth edition. New York: Macmillan International Higher Education, 2020, 1 svazek. ISBN 9781319324506. info
• CHRISTIAN, Gary D., Purnendu K. DASGUPTA and Kevin SCHUG. Analytical chemistry. 7th ed. Hoboken, N.J.: Wiley, 2014, xxii, 826. ISBN 9780470887578. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• GRANGER, Robert M., Hank M. YOCHUM, Jill N. GRANGER and Karl D. SIENERTH. Instrumental analysis. Revised first edition. New York: Oxford University Press, 2017, xxxii, 846. ISBN 9780190865337. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• ROUESSAC, Francis and Annick ROUESSAC. Chemical analysis : modern instrumentation methods and techniques. 2nd ed. Hoboken, NJ: John Wiley, 2007, xxiii, 574. ISBN 9780470859032. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001
• Encyclopedia of analytical chemistry : applications, theory and instrumentation. Edited by Robert A. Meyers. 1st ed. Chichester: John Wiley & Sons, 2011, xiv, 894. ISBN 9780470973332. info
• Encyclopedia of analytical science. Edited by Paul Worsfold - A. Townshend - C. F. Poole. 2nd ed. Amsterdam: Elsevier, 2005, xxxviii, 5. ISBN 0127641017. info
• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).
Taught in person.

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Mass spectrometry (prof. Jan Preisler).

Literature

• SKOOG, Douglas A., F. James HOLLER and Stanley R. CROUCH. Principles of instrumental analysis. Seventh edition. Boston: Cengage Learning, 2018, xx, 959. ISBN 9781305577213. info
• SKOOG, Douglas A., Donald M. WEST, F. James HOLLER and Stanley R. CROUCH. Analytická chemie. Translated by Karel Nesměrák - Václav Červený - Tomáš Křížek - Eliška. Vydání první. Praha: Vysoká škola chemicko-technologická v Praze, 2019, xxx, 950. ISBN 9788075920430. info
• Skoog D.A., West D.M., Holler F.J., Fundamentals of Analytical Chemistry, CENGAGE Boston 2022.
• HARRIS, Daniel C. and Charles A. LUCY. Quantitative chemical analysis. Tenth edition. New York: Macmillan International Higher Education, 2020, 1 svazek. ISBN 9781319324506. info
• CHRISTIAN, Gary D., Purnendu K. DASGUPTA and Kevin SCHUG. Analytical chemistry. 7th ed. Hoboken, N.J.: Wiley, 2014, xxii, 826. ISBN 9780470887578. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• GRANGER, Robert M., Hank M. YOCHUM, Jill N. GRANGER and Karl D. SIENERTH. Instrumental analysis. Revised first edition. New York: Oxford University Press, 2017, xxxii, 846. ISBN 9780190865337. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• ROUESSAC, Francis and Annick ROUESSAC. Chemical analysis : modern instrumentation methods and techniques. 2nd ed. Hoboken, NJ: John Wiley, 2007, xxiii, 574. ISBN 9780470859032. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001
• Encyclopedia of analytical chemistry : applications, theory and instrumentation. Edited by Robert A. Meyers. 1st ed. Chichester: John Wiley & Sons, 2011, xiv, 894. ISBN 9780470973332. info
• Encyclopedia of analytical science. Edited by Paul Worsfold - A. Townshend - C. F. Poole. 2nd ed. Amsterdam: Elsevier, 2005, xxxviii, 5. ISBN 0127641017. info
• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Díl I [Zýka, 1988]. Edited by Jaroslav Zýka. 4. upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 678 s. info
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 1. 3. to Fri 14. 5. Tue 8:00–9:50 online_CH1

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Tue 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Learning outcomes

Student is able to understand basic principles of instrumental analytical chemistry (electroanalytical, optical and separation methods). Student can analyze practical problems using knowledge from this subject and the to propose possible solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 18. 2. to Fri 17. 5. Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Tue 8:00–9:50 B11/305

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Přemysl Lubal, Ph.D.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 20. 2. to Mon 22. 5. Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (seminar tutor)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Wed 8:00–9:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, students can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation of relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltammetry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 8. Atomic absorption and emission spectroscopy.
• 9. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 10. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. Electromigration methods (zone electrophoresis, electrophoresis on carriers and isotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
Knowledge obtained during lectures will be tested by final combined examinanition. The succesful written test is followed by oral exam.

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. Mgr. Jan Preisler, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 9:00–10:50 B11/205

Prerequisites

C3100 Analytical Chemistry I || C3110 Analytical Chemistry I-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 6 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
RNDr. Marta Farková, CSc. (alternate examiner)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 9:00–10:50 B11/205

Prerequisites

C3100 Analytical Chemistry I
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 8 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Thu 10:00–11:50 B11/205

Prerequisites

C3100 Analytical Chemistry I && C3110 Analytical Chemistry I-sem. && C6160 Analytical Chemistry II-sem.
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects. Prerequisity for the enrolment to this subject is also classification from subjects Analytical Chemistry I (C3100) and Analytical chemistry I - seminary (C3110).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 8 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Fri 8:00–9:50 G2,02003

Prerequisites

C3100 Analytical Chemistry I
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Tue 15:00–16:50 F1 6/1014

Prerequisites

C3100 Analytical Chemistry I
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Rouessac F., Rouessac A., Chemical Analysis. Modern Instrumentation Methods and Techniques, Wiley Chichester 2007.
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Tue 14:00–15:50 F1 6/1014

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.
• Schwedt Georg, The Essential Guide to Analytical Chemistry, Wiley 1999.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)
prof. RNDr. Josef Havel, DrSc. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Tue 14:00–15:50 02004

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.
• Schwedt Georg, The Essential Guide to Analytical Chemistry, Wiley 1999.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Mon 13:00–14:50 02004

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.
• Schwedt Georg, The Essential Guide to Analytical Chemistry, Wiley 1999.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Timetable

Tue 15:00–16:50 02004

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Errors and their relationship to analytical method parameters. Statistical evaluation of analytical results - Gauss, Student and Dean-Dixon approach). Definition and parameters for precision and accuracy of analytical method. Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Reductometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR).
• 8. Atomic absorption and emission spectroscopy. Luminescent methods.
• 9. NMR a EPR spectrometry. Molecular scattering spectroscopy (turbidimetry and nephelometry).
• 10. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 11. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Errors and their relationship to analytical method parameters. Statistical evaluation of analytical results - Gauss, Student and Dean-Dixon approach). Definition and parameters for precision and accuracy of analytical method. Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Reductometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR).
• 8. Atomic absorption and emission spectroscopy. Luminescent methods.
• 9. NMR a EPR spectrometry. Molecular scattering spectroscopy (turbidimetry and nephelometry).
• 10. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 11. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Errors and their relationship to analytical method parameters. Statistical evaluation of analytical results - Gauss, Student and Dean-Dixon approach). Definition and parameters for precision and accuracy of analytical method. Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Reductometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR).
• 8. Atomic absorption and emission spectroscopy. Luminescent methods.
• 9. NMR a EPR spectrometry. Molecular scattering spectroscopy (turbidimetry and nephelometry).
• 10. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 11. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 3 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Errors and their relationship to analytical method parameters. Statistical evaluation of analytical results - Gauss, Student and Dean-Dixon approach). Definition and parameters for precision and accuracy of analytical method. Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Reductometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point.
• 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 5. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 6. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 7. Molecular absorption spectroscopy (UV, VIS, IR).
• 8. Atomic absorption and emission spectroscopy. Luminescent methods.
• 9. NMR a EPR spectrometry. Molecular scattering spectroscopy (turbidimetry and nephelometry).
• 10. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 11. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 12. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications).
• 13. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 3 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Language of instruction

Czech

Further Comments

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 3 credit(s). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Josef Havel, DrSc. (lecturer)
prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Havel, DrSc.
Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 26 fields of study the course is directly associated with, display

Language of instruction

Czech

Further Comments

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

The information about the term spring 2012 - acreditation is not made public

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Prerequisites

C3100 Analytical Chemistry I
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Prerequisites

C3100 Analytical Chemistry I
The prerequisite is passing of subjects Analytical chemistry I (C3100), Physical chemistry I (C3140), General chemistry (C1020), Inorganic chemistry I (C1061), Inorganic chemistry II (C2062), Organic chemistry I (C2021), Organic chemistry II (C3022) and relevant Laboratory courses from those subjects.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods. On the base of acquired knowledge student is able to understand basic principles of instrumental analytical chemistry. Utilizing informations from the course, he can also analyse problems and propose solutions.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A. Fundamentals of analytical chemistry. 8th ed. Belmont, Calif.: Brooks/Cole, 2004, 1 sv. ISBN 0534417965. info
• HARRIS, Daniel C. Quantitative chemical analysis. 7th ed. New York: W. H. Freeman and Company, 2007, 1 sv. ISBN 0716776944. info
• Analytical chemistry : a modern approach to analytical science. Edited by Jean-Michel Mermet - Matthias Otto - M. Valcárcel Cases. 2nd ed. Weinheim: Wiley-VCH, 2004, xxviii, 11. ISBN 3527305904. info
• SCHWEDT, Georg. The essential guide to analytical chemistry. Translated by Brooks Haderlie. 2nd ed. Chichester: John Wiley & Sons, 1997, xii, 248. ISBN 0471974129. info
• CHRISTIAN, Gary D. Analytical chemistry. 6th ed. Hoboken, NJ: John Wiley & Sons, 2003, xix, 828 s. ISBN 0-471-21472-8. info
• Enke Ch., The Art and Science of Chemical Analysis, Wiley New York 2001

Teaching methods

lectures

Assessment methods

2 hour lecture
combined exam (written and oral part)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

C4050 Analytical Chemistry II

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Přemysl Lubal, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Viktor Kanický, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science

Prerequisites (in Czech)

C3100 Analytical Chemistry I
Předpokladem je absolvování základních přednášek především z Analytické chemie I (C3100), dále z Fyzikální chemie I (C3140) z Obecné chemie (C1020), Anorganické chemie I (C1061), Anorganické chemie II (C2062), Organické chemie I (C2021), Organické chemie II (C3022) a příslušných laboratorních cvičení z těchto předmětů (hlavně Analytická chemie - laboratorní cvičení (C3120)).

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 25 fields of study the course is directly associated with, display

Course objectives

A systematic treatment of the basic principles of analytical chemistry for students of chemistry - part II. The course includes electroanalytical, optical and separation methods.

Syllabus

• 1. Introduction into subject instrumental analytical chemistry. Evaluation of results of analysis - statistics and GLP knowledge. Physical properties and analytical signal, relationship of analytical signal and concentration, calibration curves and their evaluation, standardisation for relative physical methods. Parameters of analytical method (detection limit, limit of determination, sensitivity, robustness, , precision, accuracy, etc.). Rejection of outliers, circle test.
• 2. Chosen electroanalytical methods. Potentiometric methods, basic definitions and terms. Indicator and reference electrodes. pH determination. Potentiometric indication of course of titration and equivalence point. Acid-base, redox, precipitation, complexometric titrations with potentiometric indication. Potentiometric evaluation of equivalence point (Gran linearization of titration curve).
• 3. Conductometric methods - basic definitions and terms. Direct conductometry, application for conductometric determination of equivalence point. 4. Electrogravimetry, coulometry - basic definitions and terms. Polarisation curves, deposition current, faradaic current. Electrolysis under constant potential and constant current. Electrolytic separation of metals, determination of copper and silver. Calculations of potentials for deposition, coulometry under constant current. Coulometric titrations (absolute titration methods).
• 4. Voltametry, polarography - basic definition and terms. Polarographic analysis (quantitative and qualitative analysis). Examples of applications and determinations. Amperometric, biamperometric and bipotentiometric titrations. Karl-Fischer determination of water.
• 5. Chosen optical methods. Introduction - description of electromagnetic radiation, basic definition and terms, relationships (e.g. Bouger - Lambert-Beerův law), origin of absorption and emission of light. Division of optical analytical methods. It is necessary to know the light sources, dispersion elements, detectors, methodology.
• 6. Molecular absorption spectroscopy (UV, VIS, IR). Molecular scattering spectroscopy (turbidimetry and nephelometry). Luminescent methods.
• 7. Atomic absorption and emission spectroscopy.
• 8. Chosen separation methods. Solvent extraction - basic terms and definition. Extraction equilibria in two-phase system. Solvate extraction, ionic and nonionic substances. Analytical use of ion exchangers - basic terms and definition. Solid and liquid ion exchangers - characteristic, relationships and examples of the applications.
• 9. Chromatography on thin layer of sorbent (thin layer chromatography, paper chromatgraphy) - principles and examples of applications. Gas analysis - classic (principle and examples of applications), gas chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications).
• 10. HLPC - high performance chromatography (theory, basic description of instrumentation, qualitative and quantitative analysis, examples of analytical applications). 11. Electromigration methods (zone electrophoresis, electrophoresis on carriers and izotachophoresis} - basic definitions and terms, kinds of methods, basic description of instrumentation, examples of analytical applications). Mass spectrometry.
• 12. Foundations of analysis of organic compounds. Qualitative and quantitative characteristic - general principles. Elemental analysis, analysis of functional groups - examples, determination of compound purity, methodology for structure determination of organic compounds. Determination of compounds in more complex mixtures.

Literature

• Sommer L a kol., Základy analytické chemie II, VUTium Brno 2000.
• Analytická příručka. Edited by Jaroslav Zýka. 4., upr. vyd. Praha: SNTL - Nakladatelství technické literatury, 1988, 831 s. info
• SKOOG, Douglas A., James F. HOLLER and Timothy A. NIEMAN. Principles of instrumental analysis. 5th ed. Philadelphia: Saunders College Publishing, 1998, xv, 849 s. ISBN 0-03-002078-6. info
• HARRIS, Daniel C. Quantitative chemical analysis. 4th ed. New York: W.H. Freeman, 1995, xix, 837 s. ISBN 0-7167-2508-8. info
• Kellner R., Mermet J.-M., Otto M., Widmer H. M., Analytical Chemistry, Wiley 1998.
• Schwedt Georg, The Essential Guide to Analytical Chemistry, Wiley 1999.

Assessment methods (in Czech)

2 hodinová přednáška
kombinovaná zkouška (písemná a ústní část)

Language of instruction

Czech

Follow-Up Courses

• C5350 Analytical Chemistry III

Further comments (probably available only in Czech)

The course is taught annually.
The course is taught: every week.

Listed among pre-requisites of other courses

• C1660 Basic Analytical Chemistry
  !C3100 && !C4050 && !C5230 && !NOWANY(C3100,C4050,C5230)  
• C5190 Instrumental Analytical Chemistry II - laboratory course
  (C4050||C1660)&&C7777&&(!C7640)  
• C5230 Analytical Chemistry
  !C3100 && !C4050 && !NOWANY(C3100,C4050)  
• C5350 Analytical Chemistry III
  C4050  
• C5355 Analytical Chemistry III - seminar
  C4050 && NOW(C5350)  
• C5420 Analysis of Organic Compounds
  C2021 && C3022 && C3100 && C4050  

• Enrolment Statistics (recent)