Differences of redox behaviour of ferrocene derivatives in
buffered and unbuffered aqueous solutions

D 2018

Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions

VĚŽNÍK, Jakub, Martin KONHEFR, Libuše TRNKOVÁ, Petr SKLÁDAL, Karel LACINA et. al.

Základní údaje

Originální název

Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions

Autoři

VĚŽNÍK, Jakub, Martin KONHEFR, Libuše TRNKOVÁ, Petr SKLÁDAL a Karel LACINA

Vydání

Brno, XVIII. Workshop of Biophysical Chemists and Electrochemists, od s. 41-42, 2 s. 2018

Nakladatel

Masarykova univerzita

Další údaje

Jazyk

angličtina

Typ výsledku

Stať ve sborníku

Obor

10406 Analytical chemistry

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Forma vydání

elektronická verze "online"

Odkazy

URL

Organizační jednotka

Středoevropský technologický institut

ISBN

978-80-210-9029-3

Klíčová slova anglicky

Ferrocene; Aminoferrocene; Buffered; Unbuffered; Proton-coupled electron transfer; cyclic voltammetry; Square wave voltammetry

Změněno: 4. 10. 2018 11:47, Mgr. Jakub Věžník, Ph.D.

Anotace

V originále

Aminoferrocene possesses amino group tethered to one of the cyclopentadienyl groups, which makes it attractive for use in areas such as peptide bioconjugation, prodrug synthesis, and as electroactive indicator for biosensors. While there exists a lot of reports describing use of aminoferrocene (FcNH2) in organic synthesis, not much work has been devoted to its electrochemical properties. During our work, we have noticed unexpected behaviour of FcNH2 when measuring its redox potential in aqueous solutions of different pH using common electrochemical methods. Since FcNH2 contains single protonable group, firstly we have decided to investigate its redox behaviour in aqueous solutions of different pH values. In buffered solutions FcNH2 exhibits a single peak in square wave voltammetry and its peak potentials are varying linearly across a broad pH range (2-6.5). There seems to be no major difference between stirred and unstirred solution apart from increased noise in the voltammetric records of stirred solutions. On the contrary, a pair of peaks is distinct in unbuffered solutions when pH of the solution is close to the pKa of FcNH2 (pKa = 5.76). Stirring the solution shifts the voltammetric spectra in favour of the form with higher redox potential. Since, the relative distribution of forms greatly changes with both stirring and scan rate, we assume that the effect is caused by both mass and charge transfer across the metal/solution interface. Moreover, two distinct forms in unbuffered solutions were observed in our work with ferroceneboronic acid, however, only a single form in buffered solution (not in article). Similar disparity in behaviour was also observed with flavins in buffered and unbuffered solutions; but here the oxidation/reduction is directly coupled with protonation/deprotonation. In our contribution, redox behaviour of various ferrocene derivatives was studied in dependency on pH of the solution. Specific mechanistic conclusions were made for each ferrocene derivative and effect of buffered and unbuffered environment will be assumed.

Citovat

VĚŽNÍK, Jakub, Martin KONHEFR, Libuše TRNKOVÁ, Petr SKLÁDAL a Karel LACINA. Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions. Online. In Libuše Trnková. XVIII. Workshop of Biophysical Chemists and Electrochemists. Brno: Masarykova univerzita, 2018, s. 41-42. ISBN 978-80-210-9029-3.

@inproceedings{1443936,
   author = {Věžník, Jakub and Konhefr, Martin and Trnková, Libuše and Skládal, Petr and Lacina, Karel},
   address = {Brno},
   booktitle = {XVIII. Workshop of Biophysical Chemists and Electrochemists},
   editor = {Libuše Trnková},
   keywords = {Ferrocene; Aminoferrocene; Buffered; Unbuffered; Proton-coupled electron transfer; cyclic voltammetry; Square wave voltammetry},
   howpublished = {elektronická verze "online"},
   language = {eng},
   location = {Brno},
   isbn = {978-80-210-9029-3},
   pages = {41-42},
   publisher = {Masarykova univerzita},
   title = {Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions},
   url = {http://www.sci.muni.cz/~labifel/files/soubory/sbornik_2018.pdf#page=41},
   year = {2018}
}

TY  - JOUR
ID  - 1443936
AU  - Věžník, Jakub - Konhefr, Martin - Trnková, Libuše - Skládal, Petr - Lacina, Karel
PY  - 2018
TI  - Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions
PB  - Masarykova univerzita
CY  - Brno
SN  - 9788021090293
KW  - Ferrocene
KW  - Aminoferrocene
KW  - Buffered
KW  - Unbuffered
KW  - Proton-coupled electron transfer
KW  - cyclic voltammetry
KW  - Square wave voltammetry
UR  - http://www.sci.muni.cz/~labifel/files/soubory/sbornik_2018.pdf#page=41
N2  - Aminoferrocene possesses amino group tethered to one of the cyclopentadienyl groups, which makes it attractive for use in areas such as peptide bioconjugation, prodrug synthesis, and as electroactive indicator for biosensors. While there exists a lot of reports describing use of aminoferrocene (FcNH2) in organic synthesis, not much work has been devoted to its electrochemical properties. During our work, we have noticed unexpected behaviour of FcNH2 when measuring its redox potential in aqueous solutions of different pH using common electrochemical methods. Since FcNH2 contains single protonable group, firstly we have decided to investigate its redox behaviour in aqueous solutions of different pH values. In buffered solutions FcNH2 exhibits a single peak in square wave voltammetry and its peak potentials are varying linearly across a broad pH range (2-6.5). There seems to be no major difference between stirred and unstirred solution apart from increased noise in the voltammetric records of stirred solutions. On the contrary, a pair of peaks is distinct in unbuffered solutions when pH of the solution is close to the pKa of FcNH2 (pKa = 5.76). Stirring the solution shifts the voltammetric spectra in favour of the form with higher redox potential. Since, the relative distribution of forms greatly changes with both stirring and scan rate, we assume that the effect is caused by both mass and charge transfer across the metal/solution interface. Moreover, two distinct forms in unbuffered solutions were observed in our work with ferroceneboronic acid, however, only a single form in buffered solution (not in article). Similar disparity in behaviour was also observed with flavins in buffered and unbuffered solutions; but here the oxidation/reduction is directly coupled with protonation/deprotonation. In our contribution, redox behaviour of various ferrocene derivatives was studied in dependency on pH of the solution. Specific mechanistic conclusions were made for each ferrocene derivative and effect of buffered and unbuffered environment will be assumed.
ER  -

VĚŽNÍK, Jakub, Martin KONHEFR, Libuše TRNKOVÁ, Petr SKLÁDAL a Karel LACINA. Differences of redox behaviour of ferrocene derivatives in buffered and unbuffered aqueous solutions. Online. In Libuše Trnková. \textit{XVIII. Workshop of Biophysical Chemists and Electrochemists}. Brno: Masarykova univerzita, 2018, s.~41-42. ISBN~978-80-210-9029-3.

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