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Dimensional Gradient Structure of CoSe2@CNTs–MXene Anode Assisted by Ether for High-Capacity, Stable Sodium Storage

Enze Xu Yang Jiang Pengcheng Li Junjie Quan Hanwen Zhu Li Wang Yajing Chang Zhenjie Sun Lei Chen Dabin Yu

纳微快报（英文）2021，Vol.13Issue(2)：377-389,13.

Dimensional Gradient Structure of CoSe2@CNTs–MXene Anode Assisted by Ether for High-Capacity, Stable Sodium Storage

Dimensional Gradient Structure of CoSe2@CNTs–MXene Anode Assisted by Ether for High?Capacity, Stable Sodium Storage

Enze Xu ¹Yang Jiang ¹Pengcheng Li ¹Junjie Quan ¹Hanwen Zhu ¹Li Wang ²Yajing Chang ³Zhenjie Sun ¹Lei Chen ¹Dabin Yu³

作者信息

1. School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, People's Republic of China
2. School of Chemistry and Chemical Engineering, Hefei University of Technology, Hefei 230009, People's Republic of China
3. State Key Laboratory of Pulsed Power Laser Technology, National University of Defense Technology, Hefei 230037, People's Republic of China
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摘要

Abstract

Recently, abundant resources, low-cost sodium-ion bat-teries are deemed to the new-generation battery in the field of large-scale energy storage. Nevertheless, poor active reaction dynamics, dissolution of intermediates and electrolyte matching problems are significant challenges that need to be solved. Herein, dimensional gra-dient structure of sheet–tube–dots is constructed with CoSe2@CNTs–MXene. Gradient structure is conducive to fast migration of electrons and ions with the association of ether electrolyte. For half-cell, CoSe2@CNTs–MXene exhibits high initial coulomb efficiency (81.7％) and excellent cycling performance (400 mAh g?1 cycling for 200 times in 2 A g?1). Phase transformation pathway from crystalline CoSe2–Na2Se with Co and then amorphous CoSe2 in the discharge/charge process is also explored by in situ X-ray diffraction. Density functional theory study discloses the CoSe2@CNTs–MXene in ether electrolyte system which contributes to stable sodium storage performance owing to the strong adsorption force from hierarchical structure and weak inter-action between electrolyte and electrode interface. For full cell, CoSe2@CNTs–MXene//Na3V2 (PO4)3/C full battery can also afford a competitively reversible capacity of 280 mAh g?1 over 50 cycles. Concisely, profiting from dimensional gradient structure and matched electrolyte of CoSe2@CNTs–MXene hold great application potential for stable sodium storage.

关键词

CoSe2@CNTs–MXene/Ether electrolyte/In situ XRD/DFT calculation/Sodium-ion full battery

Key words

CoSe2@CNTs–MXene/Ether electrolyte/In situ XRD/DFT calculation/Sodium-ion full battery

引用本文复制引用

Enze Xu,Yang Jiang,Pengcheng Li,Junjie Quan,Hanwen Zhu,Li Wang,Yajing Chang,Zhenjie Sun,Lei Chen,Dabin Yu..Dimensional Gradient Structure of CoSe2@CNTs–MXene Anode Assisted by Ether for High-Capacity, Stable Sodium Storage[J].纳微快报（英文）,2021,13(2):377-389,13.

基金项目

This work was financially supported by the National Natural Science Foundation of China (Grant Nos.U1632151 and 21706048), the Key Research and Development Project of Anhui Province of China (Grant No. 1704a0902023) and the Open Project of Jiangsu Key Laboratory for Carbon-Based Functional Materials and Devices (No. JS1802). （Grant Nos.U1632151 and 21706048）

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