析氧
氧气
材料科学
化学工程
催化作用
等离子体
电化学
接口(物质)
化学
电极
复合材料
物理化学
有机化学
量子力学
物理
工程类
毛细管数
毛细管作用
作者
Nuo Xu,Weijun Peng,Lei Lv,Peng Xu,Chenxu Wang,Jiantao Li,Wen Luo,Liang Zhou
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2022-05-20
卷期号:15 (10): 3688-3688
被引量:6
摘要
The electrolysis of water to produce hydrogen is an effective method for solving the rapid consumption of fossil fuel resources and the problem of global warming. The key to its success is to design an oxygen evolution reaction (OER) electrocatalyst with efficient conversion and reliable stability. Interface engineering is one of the most effective approaches for adjusting local electronic configurations. Adding other metal elements is also an effective way to enrich active sites and improve catalytic activity. Herein, high-valence iron in a heterogeneous interface of NiFe2O4/NiMoO4 composite was obtained through oxygen plasma to achieve excellent electrocatalytic activity and stability. In particular, 270 mV of overpotential is required to reach a current density of 50 mA cm−2, and the overpotential required to reach 500 mA cm−2 is only 309 mV. The electron transfer effect for high-valence iron was determined by X-ray photoelectron spectroscopy (XPS). The fast and irreversible reconstruction and the true active species in the catalytic process were identified by in situ Raman, ex situ XPS, and ex situ transmission electron microscopy (TEM) measurements. This work provides a feasible design guideline to modify electronic structures, promote a metal to an active oxidation state, and thus develop an electrocatalyst with enhanced OER performance.
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