通过优化电子密度实现高效水氧化的分级钼酸铁纳米结构阵列

Hierarchical iron molybdate nanostructure array for efficient water oxidation through optimizing electron density.

作者信息

Zhang Jun-Jun, Yang Chun-Ming, Jin Chang-Qing, Bao Wei-Wei, Nan Rui-Hua, Hu Lin, Liu Ge, Zhang Nan-Nan

机构信息

School of Materials Science and Chemical Engineering, Xi'an Technological University, Xi'an, Shaanxi 710021, China.

出版信息

Chem Commun (Camb). 2021 Apr 14;57(29):3563-3566. doi: 10.1039/d0cc07735f. Epub 2021 Mar 11.

DOI:10.1039/d0cc07735f

PMID:33704281

Abstract

The water oxidation reaction plays a major role in many alternative-energy systems because it provides the electrons and protons required for the use of renewable electricity. We report the tuning of the iron molybdate (FeMoO) electron structure via a coupled interface between the catalytic centers and the substrate. Our developed FeMoO catalysts can provide a 50 mA cm current density at 1.506 V vs. RHE with excellent stability in 1.0 M KOH. The improved performance can be ascribed to the synergy of the optimized electronic structures and hierarchical nanostructure.

摘要

水氧化反应在许多替代能源系统中起着重要作用，因为它提供了利用可再生电力所需的电子和质子。我们报告了通过催化中心与底物之间的耦合界面来调节钼酸铁（FeMoO）的电子结构。我们开发的FeMoO催化剂在相对于可逆氢电极（RHE）为1.506 V的电压下可提供50 mA/cm²的电流密度，并且在1.0 M KOH中具有出色的稳定性。性能的提高可归因于优化的电子结构和分级纳米结构的协同作用。

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通过优化电子密度实现高效水氧化的分级钼酸铁纳米结构阵列

Hierarchical iron molybdate nanostructure array for efficient water oxidation through optimizing electron density.

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