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Literature DB >> 29073048

Multielectron, multisubstrate molecular catalysis of electrochemical reactions: Formal kinetic analysis in the total catalysis regime.

Cyrille Costentin¹, Daniel G Nocera², Casey N Brodsky³.

Abstract

Cyclic voltammetry responses are derived for two-electron, two-step homogeneous electrocatalytic reactions in the total catalysis regime. The models developed provide a framework for extracting kinetic information from cyclic voltammograms (CVs) obtained in conditions under which the substrate or cosubstrate is consumed in a multielectron redox process, as is particularly prevalent for very active catalysts that promote energy conversion reactions. Such determination of rate constants in the total catalysis regime is a prerequisite for the rational benchmarking of molecular electrocatalysts that promote multielectron conversions of small-molecule reactants. The present analysis is illustrated with experimental systems encompassing various limiting behaviors.

Keywords: cyclic voltammetry; electrochemistry; energy conversion; homogeneous mechanism; total catalysis

Year: 2017 PMID： 29073048 PMCID： PMC5664534 DOI： 10.1073/pnas.1711129114

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

13 in total

1. Reversible electrocatalytic production and oxidation of hydrogen at low overpotentials by a functional hydrogenase mimic.

Authors: Stuart E Smith; Jenny Y Yang; Daniel L DuBois; R Morris Bullock
Journal: Angew Chem Int Ed Engl Date: 2012-02-14 Impact factor: 15.336

2. Molecular Catalysts for Water Oxidation.

Authors: James D Blakemore; Robert H Crabtree; Gary W Brudvig
Journal: Chem Rev Date: 2015-07-07 Impact factor: 60.622

3. Homogeneous Molecular Catalysis of Electrochemical Reactions: Catalyst Benchmarking and Optimization Strategies.

Authors: Cyrille Costentin; Jean-Michel Savéant
Journal: J Am Chem Soc Date: 2017-06-13 Impact factor: 15.419

4. Oxygen Reduction Catalysis at a Dicobalt Center: The Relationship of Faradaic Efficiency to Overpotential.

Authors: Guillaume Passard; Andrew M Ullman; Casey N Brodsky; Daniel G Nocera
Journal: J Am Chem Soc Date: 2016-02-24 Impact factor: 15.419

5. Turnover numbers, turnover frequencies, and overpotential in molecular catalysis of electrochemical reactions. Cyclic voltammetry and preparative-scale electrolysis.

Authors: Cyrille Costentin; Samuel Drouet; Marc Robert; Jean-Michel Savéant
Journal: J Am Chem Soc Date: 2012-06-27 Impact factor: 15.419

6. Molecular approaches to the photocatalytic reduction of carbon dioxide for solar fuels.

Authors: Amanda J Morris; Gerald J Meyer; Etsuko Fujita
Journal: Acc Chem Res Date: 2009-12-21 Impact factor: 22.384

7. Qualitative extension of the EC' Zone Diagram to a molecular catalyst for a multi-electron, multi-substrate electrochemical reaction.

Authors: Daniel J Martin; Brian D McCarthy; Eric S Rountree; Jillian L Dempsey
Journal: Dalton Trans Date: 2016-06-14 Impact factor: 4.390

8. Molecular catalysis of H2 evolution: diagnosing heterolytic versus homolytic pathways.

Authors: Cyrille Costentin; Hachem Dridi; Jean-Michel Savéant
Journal: J Am Chem Soc Date: 2014-09-19 Impact factor: 15.419

9. Current Issues in Molecular Catalysis Illustrated by Iron Porphyrins as Catalysts of the CO2-to-CO Electrochemical Conversion.

Authors: Cyrille Costentin; Marc Robert; Jean-Michel Savéant
Journal: Acc Chem Res Date: 2015-11-12 Impact factor: 22.384

10. Homogenous Electrocatalytic Oxygen Reduction Rates Correlate with Reaction Overpotential in Acidic Organic Solutions.

Authors: Michael L Pegis; Bradley A McKeown; Neeraj Kumar; Kai Lang; Derek J Wasylenko; X Peter Zhang; Simone Raugei; James M Mayer
Journal: ACS Cent Sci Date: 2016-10-28 Impact factor: 14.553

1 in total

1. Electrochemical trapping of metastable Mn³⁺ ions for activation of MnO₂ oxygen evolution catalysts.

Authors: Zamyla Morgan Chan; Daniil A Kitchaev; Johanna Nelson Weker; Christoph Schnedermann; Kipil Lim; Gerbrand Ceder; William Tumas; Michael F Toney; Daniel G Nocera
Journal: Proc Natl Acad Sci U S A Date: 2018-05-21 Impact factor: 11.205

1 in total