首页|期刊导航|Energy & Environmental Materials|Exploring Novel Engineering Strategy to Tune Hydrogen Evolution by Lattice Impacted Carbon-Supported Rock Salt-Type NiCo_(2)(O,F)_(3) Nanorods

Exploring Novel Engineering Strategy to Tune Hydrogen Evolution by Lattice Impacted Carbon-Supported Rock Salt-Type NiCo_(2)(O,F)_(3) Nanorods

Aslam Hossain Zhengyou Li Alexander V.Soldatov A.K.M.Atique Ullah

Energy & Environmental Materials2025，Vol.8Issue(4)：P.216-226,11.

Energy & Environmental Materials2025，Vol.8Issue(4)：P.216-226,11.DOI:10.1002/eem2.70020

Exploring Novel Engineering Strategy to Tune Hydrogen Evolution by Lattice Impacted Carbon-Supported Rock Salt-Type NiCo_(2)(O,F)_(3) Nanorods

Aslam Hossain ¹Zhengyou Li ¹Alexander V.Soldatov ¹A.K.M.Atique Ullah²

作者信息

1. The Smart Materials Research Institute,Southern Federal University,Rostov-on-Don 344090,Russian Federation
2. Department of Chemistry,Michigan State University,East Lansing,MI 48824,USA Nanoscience and Technology Research Laboratory,Atomic Energy Centre,Bangladesh Atomic Energy Commission,Dhaka 1000,Bangladesh
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摘要

关键词

amorphous carbon/electrocatalyst/green energy/hydrogen/nanorods

分类

化学化工

引用本文复制引用

Aslam Hossain,Zhengyou Li,Alexander V.Soldatov,A.K.M.Atique Ullah..Exploring Novel Engineering Strategy to Tune Hydrogen Evolution by Lattice Impacted Carbon-Supported Rock Salt-Type NiCo_(2)(O,F)_(3) Nanorods[J].Energy & Environmental Materials,2025,8(4):P.216-226,11.

基金项目

supported by the Russian Science Foundation(project No.24-43-00215,http://rscf.ru/project/24-43-00215/). （project No.24-43-00215,http://rscf.ru/project/24-43-00215/）

Energy & Environmental Materials

ISSN：2575-0348

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