基于标度关系的分子水氧化催化剂的合理设计规则

Rational Design Rules for Molecular Water Oxidation Catalysts based on Scaling Relationships.

作者信息

Hessels Joeri, Detz Remko J, Koper Marc T M, Reek Joost N H

机构信息

Homogeneous, Supramolecular and Bio-Inspired Catalysis, University of Amsterdam, HIMS, Science Park 904, 1098, XH, Amsterdam, The Netherlands.

Leiden Institute of Chemistry, Leiden University, POX 9502, 2300, RA, Leiden, The Netherlands.

出版信息

Chemistry. 2017 Nov 21;23(65):16413-16418. doi: 10.1002/chem.201702850. Epub 2017 Nov 6.

DOI:10.1002/chem.201702850

PMID:28836700

Abstract

Lowering the overpotential required for water oxidation is of paramount importance for the efficient production of carbon-neutral fuels. This article highlights the intrinsic influence of the water oxidation mechanism used by molecular catalysts on the theoretically achievable minimal overpotential, based on scaling relationships typically used for heterogeneous catalysts. Due to such scaling relationships, catalysts that operate through the water nucleophilic attack mechanism have a fundamental minimal overpotential of about 0.3 V, whereas those that follow the dinuclear radical oxo coupling mechanism should in principle be able to operate with a lower overpotential. Therefore, it is recommended to design catalysts operating through the latter mechanism to achieve very efficient water oxidation systems.

摘要

降低水氧化所需的过电位对于高效生产碳中和燃料至关重要。本文基于通常用于多相催化剂的比例关系，强调了分子催化剂所采用的水氧化机制对理论上可实现的最小过电位的内在影响。由于这种比例关系，通过水亲核攻击机制运行的催化剂具有约0.3 V的基本最小过电位，而遵循双核自由基氧偶联机制的催化剂原则上应该能够以较低的过电位运行。因此，建议设计通过后一种机制运行的催化剂，以实现非常高效的水氧化系统。

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基于标度关系的分子水氧化催化剂的合理设计规则

Rational Design Rules for Molecular Water Oxidation Catalysts based on Scaling Relationships.

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