首页> Small methods> Na1.51 Fe[Fe(CN)6 ]0.87 ·1.83H2 O Hollow Nanospheres via Non-Aqueous Ball-Milling Route to Achieve High Initial Coulombic Efficiency and High Rate Capability in Sodium-Ion Batteries.

Na1.51 Fe[Fe(CN)6 ]0.87 ·1.83H2 O Hollow Nanospheres via Non-Aqueous Ball-Milling Route to Achieve High Initial Coulombic Efficiency and High Rate Capability in Sodium-Ion Batteries.

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第一作者： Chun-Mei,Xu

第一单位： School of Environmental and Chemical Engineering, Shanghai University, Shanghai, 200444, China.

作者： Chun-Mei,Xu ^[1] ; Jian,Peng ^[2] ; Xiao-Hao,Liu ^[1] ; Wei-Hong,Lai ^[2] ; Xiang-Xi,He ^[1] ; Zhuo,Yang ^[1] ; Jia-Zhao,Wang ^[2] ; Yun,Qiao ^[1] ; Li,Li ^[1] ; Shu-Lei,Chou ^[3]

作者单位： School of Environmental and Chemical Engineering, Shanghai University, Shanghai, 200444, China. ^[1] Institute for Superconducting and Electronic Materials, Australian Institute for Innovative Materials, University of Wollongong, North Wollongong, New South Wales, 2522, Australia. ^[2] Institute for Carbon Neutralization, College of Chemistry and Materials Engineering, Wenzhou University, Zhejiang, 325035, China. ^[3]

关键词 Prussian blue analogs high initial Coulombic efficiency hollow nanospheres non-aqueous ball milling sodium-ion batteries

DOI 10.1002/smtd.202200404

PMID 35730654

发布时间 2022-08-18

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2022年6卷8期

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Na<sub>1.51</sub> Fe[Fe(CN)<sub>6</sub> ]<sub>0.87</sub> ·1.83H<sub>2</sub> O Hollow Nanospheres via Non-Aqueous Ball-Milling Route to Achieve High Initial Coulombic Efficiency and High Rate Capability in Sodium-Ion Batteries.

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Na<sub>1.51</sub> Fe[Fe(CN)<sub>6</sub> ]<sub>0.87</sub> ·1.83H<sub>2</sub> O Hollow Nanospheres via Non-Aqueous Ball-Milling Route to Achieve High Initial Coulombic Efficiency and High Rate Capability in Sodium-Ion Batteries.

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