通过铁氰化钴中的自旋交叉降低析氧过电位

Lowering the Water Oxidation Overpotential by Spin-Crossover in Cobalt Hexacyanoferrate.

作者信息

Hegner Franziska Simone, Galán-Mascarós José Ramón, López Núria

机构信息

Institute of Chemical Research of Catalonia (ICIQ), The Barcelona Institute of Science and Technology (BIST), Avinguda Països Catalans 16, 43007 Tarragona, Spain.

Technical University of Munich (TUM), 85748 Garching, Germany.

出版信息

J Phys Chem Lett. 2022 May 12;13(18):4104-4110. doi: 10.1021/acs.jpclett.2c00614. Epub 2022 May 3.

DOI:10.1021/acs.jpclett.2c00614

PMID:35502905

Abstract

The oxygen evolution reaction (OER) is limited by the inherent linear scaling relationships of its reaction intermediates. Manipulating the spin configuration of the water oxidation intermediates allows us to overcome these constraints. Cobalt hexacyanoferrate (CoFe-PB) is an efficient and robust water oxidation catalyst and further known as a magnetic switch. Its versatile electronic structure renders it a potential candidate for magnetic tuning of the OER. Herein, we used first-principles density functional theory calculations to describe the OER on two different CoFe-PB model systems and evaluated the possibility for spin-crossover (SCO) of their resting states. We show that SCO during OER can significantly lower the overpotential by 0.7 V, leading to an overpotential of around 0.3 V, which is in agreement with the experimentally measured value. Applying an external potential >1.5 V vs SHE, the SCO-assisted pathway becomes largely favored and most likely the predominant reaction pathway.

摘要

析氧反应（OER）受其反应中间体固有的线性标度关系限制。操纵水氧化中间体的自旋构型使我们能够克服这些限制。六氰合铁酸钴（CoFe-PB）是一种高效且稳定的水氧化催化剂，并且还作为一种磁开关为人所知。其多样的电子结构使其成为用于OER磁调谐的潜在候选物。在此，我们使用第一性原理密度泛函理论计算来描述在两种不同的CoFe-PB模型体系上的OER，并评估其基态自旋交叉（SCO）的可能性。我们表明，OER过程中的SCO可将过电位显著降低0.7 V，导致过电位约为0.3 V，这与实验测量值一致。施加相对于标准氢电极（SHE）大于1.5 V的外部电位时，SCO辅助途径变得极为有利，并且很可能成为主要反应途径。

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通过铁氰化钴中的自旋交叉降低析氧过电位

Lowering the Water Oxidation Overpotential by Spin-Crossover in Cobalt Hexacyanoferrate.

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