Physical upcycling of spent artificial diamond accelerant into bifunctional oxygen electrocatalyst with dual-metal active sites for durable rechargeable Zn-air batteries

Physical upcycling of spent artificial diamond accelerant into bifunctional oxygen electrocatalyst with dual-metal active sites for durable rechargeable Zn-air batteries Article

Ding, Kuixing, Hu, Jiugang, Zhao, Liming et al. (2024). Physical upcycling of spent artificial diamond accelerant into bifunctional oxygen electrocatalyst with dual-metal active sites for durable rechargeable Zn-air batteries . NANO ENERGY, 121 10.1016/j.nanoen.2024.109270

cited authors

Ding, Kuixing; Hu, Jiugang; Zhao, Liming; Jin, Wei; Yu, Huanan; Liu, Yunpeng; Wu, Zhonghua; Cai, Shan; Yang, Yi; Zou, Guoqiang; Hou, Hongshuai; Ji, Xiaobo

sustainable development goals

SDG 07: Affordable and Clean Energy

authors

Wu, Zhonghua

publication date

March 1, 2024

published in

NANO ENERGY Journal

keywords

ALLOY
Bifunctional electrocatalysts
CATALYSTS
Chemistry
Chemistry, Physical
Dual -metal active sites
EFFICIENT
EVOLUTION
In situ Raman
Materials Science
Materials Science, Multidisciplinary
N-DOPED CARBON
NANOPARTICLES
Nanoscience & Nanotechnology
Physical Sciences
Physical upcycling
Physics
Physics, Applied
Rechargeable Zn -air batteries
Science & Technology
Science & Technology - Other Topics
Technology

FIU Discovery

Physical upcycling of spent artificial diamond accelerant into bifunctional oxygen electrocatalyst with dual-metal active sites for durable rechargeable Zn-air batteries Article

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cited authors

sustainable development goals

authors

publication date

published in

Research

keywords

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