Reduction of diprotonated form of aryl hydrazones

Hydrazones derived from aromatic aldehydes and ketones are reduced at pH 2 to about 8 in a four-electron step. The species reduced in this step bears two positive charges on adjacent nitrogen atoms. This has been proved by the pH-dependence of half-wave potentials of N, N, N-trialkylhydrazonium ions...

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Bibliographic Details
Published in:Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2006-04, Vol.589 (1), p.7-14
Main Authors: Baymak, M.S., Celik, H., Lund, H., Zuman, P.
Format: Article
Language:English
Subjects:
Adsorption
Chemistry
Diprotonation
Electrochemistry
Electroreduction
Exact sciences and technology
General and physical chemistry
Hydrazones
Kinetics and mechanism of reactions
N, N, N-trialkylhydrazonium ions
Polarography
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Summary:Hydrazones derived from aromatic aldehydes and ketones are reduced at pH 2 to about 8 in a four-electron step. The species reduced in this step bears two positive charges on adjacent nitrogen atoms. This has been proved by the pH-dependence of half-wave potentials of N, N, N-trialkylhydrazonium ions, which indicates a protonation of the azomethine nitrogen prior to the first electron uptake. Similar species with two adjacent positive charges is generated by diprotonation of hydrazones, adsorbed at the electrode surface. The existence of such species as reactive intermediates at electrode surface has been in some instances confirmed, based on steep plots of i max/ i d = f(pH). The steep shape of these plots has been confirmed for acetophenone (II) and fluorenone (III) hydrazones using conventional buffers and for benzophenone hydrazone (IV) after extrapolation of buffer concentration to zero. The shape of the i max/ i d = f(pH) can be namely achieved by protonation not only by H + ions, but also by acid buffer components, as in general acid catalysis.
ISSN:1572-6657
1873-2569
DOI:10.1016/j.jelechem.2005.11.038