ScienceGate Book Chapters
JOURNAL ARTICLE

High entropy alloy nanoparticles as efficient catalysts for alkaline overall seawater splitting and Zn-air batteries

Quan ZhangKang LianQian LiuGaocan QiShusheng ZhangJun LuoXijun Liu

Year: 2023 Journal:   Journal of Colloid and Interface Science Vol: 646 Pages: 844-854   Publisher: Elsevier BV
DOI: 10.1016/j.jcis.2023.05.074
   Get Full-Text PDF    Get Analytical Report

Abstract

High entropy alloys (HEAs) are those metallic materials that consist of five or more elements. Compared with conventional alloys, they have much more catalytic active sites due to unique structural characteristics such as high entropy effect and lattice distortion, endowing them with promising applications in the region of hydrolysis catalysts. Herein, we successfully loaded high-entropy alloys onto carbon nanotubes (FeNiCoMnRu@CNT) by hydrothermal means. It exhibits excellent HER and OER properties in alkaline seawater. To accomplish two-electrode total water splitting when constructed into Zn air cells, it only needed 1.6 V, and the timing voltage curve showed a steady current density of 10 mA cm-2 during constant electrolysis for more than 30 h in alkaline seawater. The remarkably high HER and OER activity of FeNiCoMnRu@CNT HEAs NPS indicates the potentially broad application prospect of HEAs for Zn air battery.

Keywords:
Seawater High entropy alloys Alkaline battery Alloy Electrolysis Materials science Catalysis Lattice constant Nanoparticle Water splitting Hydrothermal circulation Chemical engineering Inorganic chemistry Electrode Nanotechnology Metallurgy Chemistry Physical chemistry Electrolyte

Metrics

144
Cited By
12.20
FWCI (Field Weighted Citation Impact)
132
Refs
0.99
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Electrocatalysts for Energy Conversion
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment
Advanced battery technologies research
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

Related Documents

JOURNAL ARTICLE

Amorphous high-entropy phosphoxides for efficient overall alkaline water/seawater splitting

Han-Ming ZhangLihao ZuoYuhang GaoJunxia GuoCaizhen ZhuJian XuJinfeng Sun

Journal:   Journal of Material Science and Technology Year: 2023 Vol: 173 Pages: 1-10
JOURNAL ARTICLE

Advanced high-entropy alloy catalysts for robust and efficient natural seawater splitting

Haowei BianPeng QiGuangwen XieXin LiuYan ZengPeng Wang

Journal:   International Journal of Hydrogen Energy Year: 2025 Vol: 154 Pages: 150215-150215
JOURNAL ARTICLE

Biomimetic hierarchical porous high entropy alloy for significantly enhancing overall seawater splitting

Wei WangWeiqi WangJun ChengXing LüYunzhuo Lu

Journal:   Chemical Communications Year: 2024 Vol: 60 (63)Pages: 8276-8279
JOURNAL ARTICLE

PtFeCoNiMoY high-entropy alloy nanoparticles as bifunctional oxygen catalysts for zinc air batteries

Jianling HanWenxi ZhangK.X. LiuHuijie ZhengYiming LiLiuxiong LuoShen GongYanlin JiaXiaopeng Liang

Journal:   Applied Surface Science Year: 2024 Vol: 687 Pages: 162238-162238
JOURNAL ARTICLE

Dual-synergistic effect of medium-entropy metal sulfoselenide nanoparticles toward efficient overall seawater splitting

Hao WuFengqi LiSirui HuangZhichao WangYujie MaHaifeng BianCong WangQing ZhouShunshun JiaGe XueZhonglu HuJian GuShaochun TangXiangkang Meng

Journal:   Journal of Colloid and Interface Science Year: 2024 Vol: 680 (Pt B)Pages: 472-483
© 2026 ScienceGate Book Chapters — All rights reserved.