PřF:C7060 Trace Analysis - Course Information

C7060 Trace Analysis

Extent and Intensity

2/0/0. 2 credit(s) (fasci plus compl plus > 4). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).

Teacher(s)

prof. RNDr. Josef Komárek, DrSc. (lecturer)
doc. RNDr. Pavel Coufalík, Ph.D. (lecturer)

Guaranteed by

prof. RNDr. Josef Komárek, DrSc.
Department of Chemistry – Chemistry Section – Faculty of Science
Supplier department: Department of Chemistry – Chemistry Section – Faculty of Science

Timetable

Wed 11:00–12:50 C14/207

Prerequisites

Knowledge of Analytical chemistry on the level of fundamental courses.

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

• Analytical Chemistry (programme PřF, N-CH)

Course objectives

At the end of the course, students should be able to: - understand the problems of trace analysis - choose system of work in laboratory for trace analysis - outline parameters important for environment of clean laboratory - compare capacities for methods for preconcentration of trace elements and separation of matrix - appraise advantages of flow analysis - propose suitable analytical procedure and method for practical application

Syllabus

• 1. Special problems in work with small sample quantity and with extremely low concentration. Microgravimetry, microtitrations.
• 2. Instrumental microanalysis, ultramicroanalysis.
• 3. Importance of trace analysis for practice. Laboratory for trace analysis, its equipment and rules for users.
• 4. Chemical vessels. Reagents, their purification and storing. Purity of chemicals and water.
• 5. The sample, its homogeneity and storing. Contamination and analyte loses in the chemical operations.
• 6. Decomposition of inorganic materials, pressure systems, bomb with teflon and quartz vessels.
• 7. Decomposition of biological materials, wet ashing, oxidising mineral acids at normal pressure,high pressure digestion, microwave oven, Fentons reagent. Photolytic decomposition.
• 8. High temperature dry ashing, muffle furnace, radio frequency plasma.
• 9. Separation of trace and matrix elements. Volatilization.
• 10. Selective dissolution, liquid-liquid extraction, sorption, ion exchange.
• 11. Flow injection analysis, zone dispersion, FIA systems. Preconcentration of elements on chelating sorbents. Flow injection extraction system, segmentor, phase separator.
• 12. Freezing and zone melting. Precipitation of trace elements, carrier precipitation and flotation.
• 13. Electrochemical deposition, electrodeposition on solid electrodes and mercury cathodes, flow and static arrangement, Coupling of deposition with AAS. Blank and its importance in trace analysis.
• 14. Local analysis of the surface, LA-ICP-OES.
• 15. Trace analysis of organic compounds.

Literature

• Trace metal analysis and speciation. Edited by I. S. Krull. Amsterdam: Elsevier, 1991, 302 s. ISBN 0-444-88209-X. info
• MIZUIKE, Atsushi. Metody koncentrirovanija mikroelementov v neoorganičeskom analize. Moskva: Chimija, 1986, 151 s. info
• BEYERMANN, Klaus. Organic Trace Analysis. Chichester: Ellis Horwood Limited, 1984, 365 s. ISBN 0-85312-638-0. info
• Dulski T.R.: Trace elemental analysis of metals. Methods and Techniques. 1999.

Teaching methods

Education is performed as lectures with PowerPoint presentation. Understanding of solution of trace analysis problems, preconcentration methods, flow analysis, data evaluation and the use in practical analysis is emphasized.

Assessment methods

Final assessment (at the end of semester) is by oral examination. The exam consists in six questions, which require description and explanation of asked topic.

Language of instruction

Czech

Further Comments

The course can also be completed outside the examination period.
The course is taught annually.

• Enrolment Statistics (Autumn 2015, recent)
  
• Permalink: https://is.muni.cz/course/sci/autumn2015/C7060