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金属-氧键离子性作为掺杂NiOOH光催化活性的有效描述符

Metal-Oxygen Bond Ionicity as an Efficient Descriptor for Doped NiOOH Photocatalytic Activity.

作者信息

Zaffran Jeremie, Toroker Maytal Caspary

机构信息

Department of Materials Science and Engineering, Technion-Israel Institute of Technology, Haifa, 32000, Israel), Tel.: +972 4 8294298.

出版信息

Chemphyschem. 2016 Jun 3;17(11):1630-6. doi: 10.1002/cphc.201600049. Epub 2016 Mar 24.

Abstract

The computational design of solid catalysts has become a very "hot" field during the last decades, especially with the recent increase in computational tool performance. However, theoretical techniques are still very time demanding because they require the consideration of many adsorption configurations of the reaction intermediates on the surface. Herein, we propose to use the metal-oxygen (M-O) bond ionicity as a descriptor for the photocatalytic activity of one of the best catalysts for the oxygen evolution reaction (OER). Ionicity is a bulk property and thus carries the advantage of being easily obtainable from a simple Bader charge analysis by using density functional theory (DFT). We will show that this criterion can be used successfully to design efficient dopants for NiOOH material. This catalyst is known to exhibit interesting photoelectrochemical properties for OER if it is doped with specific transition metals. Finally, we demonstrate that other electronic properties that relate to bulk calculation, such as oxidation states and density of states, are not alone sufficient to explain the photocatalytic activity of the material. Thus, M-O bond ionicity attracts significant interest compared with other bulk observables obtained by using DFT computations.

摘要

在过去几十年里,固体催化剂的计算设计已成为一个非常“热门”的领域,尤其是随着近期计算工具性能的提升。然而,理论技术仍然非常耗时,因为它们需要考虑反应中间体在表面的许多吸附构型。在此,我们提议使用金属 - 氧(M - O)键离子性作为析氧反应(OER)最佳催化剂之一的光催化活性的描述符。离子性是一种体相性质,因此具有通过使用密度泛函理论(DFT)进行简单的巴德电荷分析就能轻松获得的优势。我们将表明,该标准可成功用于设计NiOOH材料的高效掺杂剂。已知如果该催化剂掺杂特定的过渡金属,它会表现出有趣的用于OER的光电化学性质。最后,我们证明与体相计算相关的其他电子性质,如氧化态和态密度,不足以单独解释该材料的光催化活性。因此,与通过DFT计算获得的其他体相可观测量相比,M - O键离子性引起了极大的关注。

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