Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc-Air Battery
Shengmei Chen Juan Antonio Zapien Xiongyi Liang Sixia Hu Xinliang Li Guobin Zhang Shuyun Wang Longtao Ma Chi-Man Lawrence Wu Chunyi Zhi
纳微快报(英文)2023,Vol.15Issue(4):23-39,17.
纳微快报(英文)2023,Vol.15Issue(4):23-39,17.
Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc-Air Battery
Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc-Air Battery
摘要
关键词
Fe 3d electron delocalization/Spin-state transition/Oxygen reduction reaction/Wearable zinc-air batteriesKey words
Fe 3d electron delocalization/Spin-state transition/Oxygen reduction reaction/Wearable zinc-air batteries引用本文复制引用
Shengmei Chen,Juan Antonio Zapien,Xiongyi Liang,Sixia Hu,Xinliang Li,Guobin Zhang,Shuyun Wang,Longtao Ma,Chi-Man Lawrence Wu,Chunyi Zhi..Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc-Air Battery[J].纳微快报(英文),2023,15(4):23-39,17.基金项目
This research was supported by a Grant of the Innovation and Technology Commission of Hong Kong(Project number:ITS/461/18)and City University of Hong Kong(Project number:9678179).Open access funding provided by Shanghai Jiao Tong University. (Project number:ITS/461/18)
