Electrochemical, Spectroscopic, and Quantum Chemical Study of Electrocatalytic Hydrogen Evolution in the Presence of N-Methyl-9-phenylacridinium Iodide


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Abstract

Main intermediates in the electrocatalytic hydrogen evolution promoted by N-methyl-9-phenyl-acridinium iodide have been identified and characterized using cyclic voltammetry (CV) and NMR and ESR spectroscopy. A probable mechanism of the process has been proposed on the basis of DFT quantum chemical calculations. Analysis of structural and energetic parameters of intermediate products has shown that the electrocatalytic process involves formation of N-protonated radical cation, followed by reductive elimination of molecular hydrogen in the bimolecular reaction of two radical cations.

About the authors

A. V. Dolganov

Ogarev Mordovian National Research State University

Author for correspondence.
Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

O. V. Tarasova

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

A. V. Balandina

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

O. Yu. Chernyaeva

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

V. Yu. Yurova

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

Yu. M. Selivanova

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

A. D. Yudina

Ogarev Mordovian National Research State University

Email: dolganov_sasha@mail.ru
Russian Federation, Saransk

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