Literature DB >> 25076140

Electrochemical reduction of Brønsted acids by glassy carbon in acetonitrile-implications for electrocatalytic hydrogen evolution.

Brian D McCarthy1, Daniel J Martin, Eric S Rountree, Alexander C Ullman, Jillian L Dempsey.   

Abstract

Molecular catalysts for electrochemically driven hydrogen evolution are often studied in acetonitrile with glassy carbon working electrodes and Brønsted acids. Surprisingly, little information is available regarding the potentials at which acids are directly reduced on glassy carbon. This work examines acid electroreduction in acetonitrile on glassy carbon electrodes by cyclic voltammetry. Reduction potentials, spanning a range exceeding 2 V, were found for 20 acids. The addition of 100 mM water was not found to shift the reduction potential of any acid studied, although current enhancement was observed for some acids. The data reported provides a guide for selecting acids to use in electrocatalysis experiments such that direct electrode reduction is avoided.

Entities:  

Year:  2014        PMID: 25076140     DOI: 10.1021/ic500770k

Source DB:  PubMed          Journal:  Inorg Chem        ISSN: 0020-1669            Impact factor:   5.165


  22 in total

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5.  Proton-Coupled Electron-Transfer Reactivity Controls Iron versus Sulfur Oxidation in Nonheme Iron-Thiolate Complexes.

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Review 6.  Transition Metal Complexes as Catalysts for the Electroconversion of CO2 : An Organometallic Perspective.

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7.  Turning it off! Disfavouring hydrogen evolution to enhance selectivity for CO production during homogeneous CO2 reduction by cobalt-terpyridine complexes.

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Journal:  Chem Sci       Date:  2015-02-18       Impact factor: 9.825

8.  Proton reduction reaction catalyzed by homoleptic nickel bis-1,2-dithiolate complexes: Experimental and theoretical mechanistic investigations.

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Journal:  ChemCatChem       Date:  2017-04-21       Impact factor: 5.686

9.  Redox mediators accelerate electrochemically-driven solubility cycling of molecular transition metal complexes.

Authors:  Katherine J Lee; Kunal M Lodaya; Cole T Gruninger; Eric S Rountree; Jillian L Dempsey
Journal:  Chem Sci       Date:  2020-09-10       Impact factor: 9.825

10.  Proton Relay in Iron Porphyrins for Hydrogen Evolution Reaction.

Authors:  Sarmistha Bhunia; Atanu Rana; Shabnam Hematian; Kenneth D Karlin; Abhishek Dey
Journal:  Inorg Chem       Date:  2021-06-07       Impact factor: 5.436
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