期刊
NANO LETTERS
卷 21, 期 11, 页码 4845-4852出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.1c01519
关键词
interface engineering; heterostructure; hydrogen oxidation reaction; hydrogen evolution reaction; alkaline media
类别
资金
- Hundred Talents Program of Zhejiang University, China
- Office of China Postdoc Council (OCPC) [YJ20200160]
- Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory [XHT2020-003]
- Fundamental Research Funds for the Central Universities [WUT: 2020III029, 2020IVA100]
This study focuses on precise manipulation of atomic-level interface chemistry in Pt/NiO heterostructure through annealing treatment, resulting in enhanced hydrogen electrocatalysis kinetics. The optimized heterostructure exhibits the highest specific exchange current density, attributed to the formation of Pt-Ni interfacial bonds and improved electron transfer. The regulated interface chemistry also optimizes hydrogen and hydroxyl species binding behaviors, emphasizing the importance of atomic-level interface engineering in heterostructured electrocatalysts.
Precise manipulation of the interactions between different components represents the frontier of heterostructured electrocatalysts and is crucial to understanding the structure-function relationship. Current studies, however, are quite limited. Here, we report targeted modulation of the atomic-level interface chemistry of Pt/NiO heterostructure via an annealing treatment, which results in substantially enhanced hydrogen electrocatalysis kinetics in alkaline media. Specifically, the optimized Pt/NiO heterostructure delivers by far the highest specific exchange current density of 8.1 mA cm(p)(t)(-2 )for hydrogen oxidation reaction. X-ray spectroscopy results suggest Pt-Ni interfacial bonds are formed after annealing, inducing more significant electron transfer from NiO to Pt. Also, the regulated interface chemistry, as proven by theoretical calculations, optimizes the binding behaviors of hydrogen and hydroxyl species. These findings emphasize the importance of interface engineering at the atomic level and inspire further explorations of heterostructured electrocatalysts.
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