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Literature DB >> 25615667

Concerted proton-coupled electron transfer from a metal-hydride complex.

Marc Bourrez¹, Romain Steinmetz, Sascha Ott, Frederic Gloaguen, Leif Hammarström.

Abstract

Metal hydrides are key intermediates in the catalytic reduction of protons and CO2 as well as in the oxidation of H2. In these reactions, electrons and protons are transferred to or from separate acceptors or donors in bidirectional protoncoupled electron transfer (PCET) steps. The mechanistic interpretation of PCET reactions of metal hydrides has focused on the stepwise transfer of electrons and protons. A concerted transfer may, however, occur with a lower reaction barrier and therefore proceed at higher catalytic rates. Here we investigate the feasibility of such a reaction by studying the oxidation–deprotonation reactions of a tungsten hydride complex. The rate dependence on the driving force for both electron transfer and proton transfer—employing different combinations of oxidants and bases—was used to establish experimentally the concerted, bidirectional PCET of a metal-hydride species. Consideration of the findings presented here in future catalyst designs may lead to more-efficient catalysts.

Entities: Chemical

Year: 2014 PMID： 25615667 DOI： 10.1038/nchem.2157

Source DB: PubMed Journal: Nat Chem ISSN： 1755-4330 Impact factor: 24.427

21 in total

Review 1. Thermodynamics and kinetics of CO2, CO, and H+ binding to the metal centre of CO2 reduction catalysts.

Authors: Jacob Schneider; Hongfei Jia; James T Muckerman; Etsuko Fujita
Journal: Chem Soc Rev Date: 2011-12-14 Impact factor: 54.564

Review 2. Proton-coupled electron transfer.

Authors: David R Weinberg; Christopher J Gagliardi; Jonathan F Hull; Christine Fecenko Murphy; Caleb A Kent; Brittany C Westlake; Amit Paul; Daniel H Ess; Dewey Granville McCafferty; Thomas J Meyer
Journal: Chem Rev Date: 2012-06-18 Impact factor: 60.622

Review 3. Thermochemistry of proton-coupled electron transfer reagents and its implications.

Authors: Jeffrey J Warren; Tristan A Tronic; James M Mayer
Journal: Chem Rev Date: 2010-10-06 Impact factor: 60.622

4. Extension of the self-consistent spectrophotometric basicity scale in acetonitrile to a full span of 28 pKa units: unification of different basicity scales.

Authors: Ivari Kaljurand; Agnes Kütt; Lilli Sooväli; Toomas Rodima; Vahur Mäemets; Ivo Leito; Ilmar A Koppel
Journal: J Org Chem Date: 2005-02-04 Impact factor: 4.354

Review 5. Diverse world of unconventional hydrogen bonds.

Authors: Natalia V Belkova; Elena S Shubina; Lina M Epstein
Journal: Acc Chem Res Date: 2005-08 Impact factor: 22.384

6. Kinetic effects of increased proton transfer distance on proton-coupled oxidations of phenol-amines.

Authors: Todd F Markle; Ian J Rhile; James M Mayer
Journal: J Am Chem Soc Date: 2011-10-11 Impact factor: 15.419

7. Hydride ion transfer from ruthenium(II) complexes in water: kinetics and mechanism.

Authors: Carol Creutz; Mei H Chou; Hua Hou; James T Muckerman
Journal: Inorg Chem Date: 2010-11-01 Impact factor: 5.165

8. Neutral transition metal hydrides as acids in hydrogen bonding and proton transfer: media polarity and specific solvation effects.

Authors: Vladislava A Levina; Oleg A Filippov; Evgenii I Gutsul; Natalia V Belkova; Lina M Epstein; Agusti Lledos; Elena S Shubina
Journal: J Am Chem Soc Date: 2010-08-18 Impact factor: 15.419

9. The kinetic effect of internal hydrogen bonds on proton-coupled electron transfer from phenols: a theoretical analysis with modeling of experimental data.

Authors: Linus O Johannissen; Tania Irebo; Martin Sjödin; Olof Johansson; Leif Hammarström
Journal: J Phys Chem B Date: 2009-12-17 Impact factor: 2.991

Review 10. Proton-coupled electron transfer in biology: results from synergistic studies in natural and model systems.

Authors: Steven Y Reece; Daniel G Nocera
Journal: Annu Rev Biochem Date: 2009 Impact factor: 23.643

21 in total

1. Proton-coupled electron transfer: metal hydrides find the sweet spot.

Authors: Jillian L Dempsey
Journal: Nat Chem Date: 2015-02 Impact factor: 24.427

2. Strategies for Enhancing the Rate Constant of C-H Bond Cleavage by Concerted Proton-Coupled Electron Transfer.

Authors: Elvira R Sayfutyarova; Yan-Choi Lam; Sharon Hammes-Schiffer
Journal: J Am Chem Soc Date: 2019-09-12 Impact factor: 15.419

3. A Continuum of Proton-Coupled Electron Transfer Reactivity.

Authors: Julia W Darcy; Brian Koronkiewicz; Giovanny A Parada; James M Mayer
Journal: Acc Chem Res Date: 2018-09-20 Impact factor: 22.384

4. Transition State Asymmetry in C-H Bond Cleavage by Proton-Coupled Electron Transfer.

Authors: Julia W Darcy; Scott S Kolmar; James M Mayer
Journal: J Am Chem Soc Date: 2019-06-27 Impact factor: 15.419

Review 5. Photochemical and Electrochemical Applications of Proton-Coupled Electron Transfer in Organic Synthesis.

Authors: Philip R D Murray; James H Cox; Nicholas D Chiappini; Casey B Roos; Elizabeth A McLoughlin; Benjamin G Hejna; Suong T Nguyen; Hunter H Ripberger; Jacob M Ganley; Elaine Tsui; Nick Y Shin; Brian Koronkiewicz; Guanqi Qiu; Robert R Knowles
Journal: Chem Rev Date: 2021-11-23 Impact factor: 60.622

6. Semiempirical method for examining asynchronicity in metal-oxido-mediated C-H bond activation.

Authors: Suman K Barman; Meng-Yin Yang; Trenton H Parsell; Michael T Green; A S Borovik
Journal: Proc Natl Acad Sci U S A Date: 2021-09-07 Impact factor: 11.205

7. Separating Proton and Electron Transfer Effects in Three-Component Concerted Proton-Coupled Electron Transfer Reactions.

Authors: Wesley D Morris; James M Mayer
Journal: J Am Chem Soc Date: 2017-07-21 Impact factor: 15.419