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Advanced Carbon Based Materials for Fabrications of Sodium Ion Hybrid Capacitors with High Electrochemical Performance (Supporting Information)

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posted on 2023-04-27, 04:28 authored by Jianke LI, Wenjie LIANG, Xincheng MIAO, Beibei HAN, Guiying XU, Kun WANG, Baigang AN, Dongying JU, Maorong CHAI, Weimin ZHOU

Herein, the novel sodium ion hybrid capacitors (SIHCs) are successfully and facilely fabricated by utilizing the same carbon resource of magnesium citrate. Namely, the carbons which are fabricated by immediate carbonizations of magnesium citrate are used as positive electrodes, and N, S-doped carbons prepared by co-carbonizations of magnesium citrate with ammonium persulfate are determined as negative electrodes. The detailed electrochemical evaluations demonstrate that fabricated SIHCs possess tremendous Na+ storage performance. For instance, the fabricated SIHC(1//1) shows an energy density of 100.8 Wh Kg−1 at a power density of 136.8 W Kg−1, when current density was 0.1 A g−1. Furthermore, when the current density was set at 5.0 A g−1, this SIHC(1//1) also exhibits a power density of 12957.6 W Kg−1 at an energy density of 46.9 Wh Kg−1. These results reveal that SIHC(1//1) has the powerful competitiveness in high energy and power-required electricity storage applications.

Funding

University of Science and Technology Liaoning

Liaoning Province Education Department of China

Electrochemical Low Temperature Synthesis of Micro/Nano SiC by Molten Salt and Its Mechanism

National Natural Science Foundation of China

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Ion storage operation of ordered microporous/ultramicroporous carbon for research

National Natural Science Foundation of China

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Corresponding author email address

aszhou15242870697@163.com

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© 2023 The Author(s).

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