Literature DB >> 24325734

A biomimetic copper water oxidation catalyst with low overpotential.

Teng Zhang1, Cheng Wang, Shubin Liu, Jin-Liang Wang, Wenbin Lin.   

Abstract

Simply mixing a Cu(II) salt and 6,6'-dihydroxy-2,2'-bipyridine (H2L) in a basic aqueous solution afforded a highly active water oxidation catalyst (WOC). Cyclic voltammetry of the solution at pH = 12-14 shows irreversible catalytic current with an onset potential of ~0.8 V versus NHE. Catalytic oxygen evolution takes place in controlled potential electrolysis at a relatively low overpotential of 640 mV. Experimental and computational studies suggest that the L ligand participates in electron transfer processes to facilitate the oxidation of the Cu center to lead to an active WOC with low overpotential, akin to the use of the tyrosine radical by Photosystem II to oxidize the CaMn4 center for water oxidation.

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Year:  2013        PMID: 24325734     DOI: 10.1021/ja409267p

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  13 in total

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4.  Tuning of the copper-thioether bond in tetradentate N₃S(thioether) ligands; O-O bond reductive cleavage via a [Cu(II)₂(μ-1,2-peroxo)]²⁺/[Cu(III)₂(μ-oxo)₂]²⁺ equilibrium.

Authors:  Sunghee Kim; Jake W Ginsbach; A Imtiaz Billah; Maxime A Siegler; Cathy D Moore; Edward I Solomon; Kenneth D Karlin
Journal:  J Am Chem Soc       Date:  2014-05-22       Impact factor: 15.419

5.  Intramolecular hydrogen-bonding in a cobalt aqua complex and electrochemical water oxidation activity.

Authors:  Juliet F Khosrowabadi Kotyk; Caitlin M Hanna; Rebecca L Combs; Joseph W Ziller; Jenny Y Yang
Journal:  Chem Sci       Date:  2018-02-06       Impact factor: 9.825

6.  Incorporation of redox-inactive cations promotes iron catalyzed aerobic C-H oxidation at mild potentials.

Authors:  Teera Chantarojsiri; Joseph W Ziller; Jenny Y Yang
Journal:  Chem Sci       Date:  2018-02-07       Impact factor: 9.825

7.  Visible light-driven water oxidation using a covalently-linked molecular catalyst-sensitizer dyad assembled on a TiO2 electrode.

Authors:  Masanori Yamamoto; Lei Wang; Fusheng Li; Takashi Fukushima; Koji Tanaka; Licheng Sun; Hiroshi Imahori
Journal:  Chem Sci       Date:  2015-11-30       Impact factor: 9.825

8.  Iridium and Ruthenium Complexes of N-Heterocyclic Carbene- and Pyridinol-Derived Chelates as Catalysts for Aqueous Carbon Dioxide Hydrogenation and Formic Acid Dehydrogenation: The Role of the Alkali Metal.

Authors:  Sopheavy Siek; Dalton B Burks; Deidra L Gerlach; Guangchao Liang; Jamie M Tesh; Courtney R Thompson; Fengrui Qu; Jennifer E Shankwitz; Robert M Vasquez; Nicole Chambers; Gregory J Szulczewski; Douglas B Grotjahn; Charles Edwin Webster; Elizabeth T Papish
Journal:  Organometallics       Date:  2017-03-03       Impact factor: 3.876

9.  Energetic Effects of a Closed System Approach Including Explicit Proton and Electron Acceptors as Demonstrated by a Mononuclear Ruthenium Water Oxidation Catalyst.

Authors:  Jessica M de Ruiter; Huub J M de Groot; Francesco Buda
Journal:  ChemCatChem       Date:  2018-08-28       Impact factor: 5.686

10.  Pinpointing the active species of the Cu(DAT) catalyzed oxygen reduction reaction.

Authors:  Bas van Dijk; Jan P Hofmann; Dennis G H Hetterscheid
Journal:  Phys Chem Chem Phys       Date:  2018-07-25       Impact factor: 3.676
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