Effect of ultramicropores and inner space of carbon materials on the capacitive sodium storage performance

Zimu Jiang,Su Zhang,Jing Feng,Yuting Jiang,Shichuan Liang,Qiqi Li,Mengjiao Shi,Meng Cao,Mingyi Zhang,Tong Wei,Zhuangjun Fan

Journal of Energy Chemistry（2022）

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Abstract

Ultramicropores and inner space of a novel graphene block are well-characterized by CO2 adsorption-desorption method, showing a high capacitive Na+ storage ability when certain potential is applied to allow Na+ passing through the ultramicropores.

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Key words

Graphene block,Ultramicropores,Na+ storage,Electrochemical kinetic

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