Issue 89, 2023
From the journal:

Chemical Communications

Accelerating ion/electron transport by engineering an indium-based heterostructure toward large and reversible lithium storage

Shuoyu Wang,a   Yuanxia Zhang,a   Ru-Ning Tian,b   Mengnuo Fu,a   Jingjing Chen,ab   Dajian Wang,b   Chenlong Dong ORCID logo *bc  and  Zhiyong Mao ORCID logo *a  

* Corresponding authors

a Tianjin Key Laboratory for Photoelectric Materials and Devices, School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, PR China
E-mail: mzhy1984@163.com

b Key Laboratory of Display Materials and Photoelectric Devices, Tianjin University of Technology, Ministry of Education, Tianjin 300384, PR China
E-mail: dongchenlong@email.tjut.edu.cn

c State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, PR China

Abstract

The high activity of the In2O3/In2S3 heterostructure can be activated into homogeneous In2OxS3−x nanodots, thereupon stabilizing the subsequent cycles. The In2O3/In2S3 can offer a high capacity of 1140 mA h g−1 at 0.1 A g−1 after 290 cycles, and even at 1 A g−1, it harvests a reversible capacity of 900 mA h g−1 after 600 cycles.

Graphical abstract: Accelerating ion/electron transport by engineering an indium-based heterostructure toward large and reversible lithium storage

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Article information

DOI
https://doi.org/10.1039/D3CC03884J
Article type
Communication
Submitted
11 Aug 2023
Accepted
12 Oct 2023
First published
13 Oct 2023

Chem. Commun., 2023,59, 13305-13308

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Accelerating ion/electron transport by engineering an indium-based heterostructure toward large and reversible lithium storage

S. Wang, Y. Zhang, R. Tian, M. Fu, J. Chen, D. Wang, C. Dong and Z. Mao, Chem. Commun., 2023, 59, 13305 DOI: 10.1039/D3CC03884J

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