A high-entropy atomic environment converts inactive to active sites for electrocatalysis

Zhu, Han; Sun, Shuhui; Hao, Jiace; Zhuang, Zechao; Zhang, Songge; Wang, Tongde; Kang, Qi; Lu, Shuanglong; Wang, Xiaofan; Lai, Feili; Liu, Tianxi; Gao, Guohua; Du, Mingliang; Wang, Dingsheng

doi:10.1039/d2ee03185j

articleEnergy & Environmental ScienceJan 1, 2023Closed access

A high-entropy atomic environment converts inactive to active sites for electrocatalysis

HZHan Zhu SSShuhui Sun JHJiace Hao ZZZechao Zhuang SZSongge Zhang

Jiangnan University · Tsinghua University · +4 more institutions

Indexed incrossref

Abstract

An electronegativity-dominant high-entropy atomic environment regulation strategy was developed to manipulate the electrocatalytic properties by tailoring the competitive adsorption sites in HEA NPs.

Citation impact

480

total citations

FWCI: 28.68
Percentile: 100%
References: 46

Citations per year

Authors

HZ
Han ZhuCorresponding
Jiangnan University
SS
Shuhui Sun
Jiangnan University
JH
Jiace Hao
Jiangnan University
ZZ
Zechao ZhuangCorresponding
Tsinghua University
SZ
Songge Zhang
Hong Kong Polytechnic University

Topics & keywords

Topics

Electrocatalysts for Energy Conversion100%
Catalytic Processes in Materials Science100%
Advanced Photocatalysis Techniques100%

Keywords

Electrocatalyst
Entropy (arrow of time)
Nanotechnology
Chemistry
Chemical physics
Materials science
Physics
Thermodynamics

No related works found for this paper.

Funding

NN
National Natural Science Foundation of China
Award: 52073124,52273058, 51872204, 52072261
NS
Natural Science Foundation of Jiangsu Province
Award: SBK2022030167
P2
Project 211
Award: B13025
FR
Fundamental Research Funds for the Central Universities