Copper cobalt tin sulphide (Cu2CoSnS4) anodes synthesised using a chemical route for stable and efficient rechargeable lithium-ion batteries

Inamdar, Akbar I.; Hou, Bo; Chavan, Harish S.; Salunke, Amol S.; Han, Jonghoon; Shin, Giho; Park, Sunjung; Yeon, Seungun; Shrestha, Nabeen K.; Im, Hyunsik; Kim, Hyungsang

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Copper cobalt tin sulphide (Cu2CoSnS4) anodes synthesised using a chemical route for stable and efficient rechargeable lithium-ion batteriesopen access

Authors: Inamdar, Akbar I.; Hou, Bo; Chavan, Harish S.; Salunke, Amol S.; Han, Jonghoon; Shin, Giho; Park, Sunjung; Yeon, Seungun; Shrestha, Nabeen K.; Im, Hyunsik; Kim, Hyungsang

Issue Date: Oct-2022

Publisher: Royal Society of Chemistry

Keywords: Anodes; Charging (batteries); Cobalt Compounds; Copper Compounds; Efficiency; Electric Discharges; Lithium-ion Batteries; Sulfur Compounds; Battery Performance; Charge Storage; Chemical Routes; Electrochemical Charge; Fast Charging; Hydrothermal Methods; Rechargeable Lithium Ion Battery; Simple++; Storage Performance; Synthesised; Tin Compounds

Citation: Dalton Transactions, v.51, no.38, pp 14535 - 14544

Pages: 10

Indexed: SCIE
SCOPUS

Journal Title: Dalton Transactions

Volume: 51

Number: 38

Start Page: 14535

End Page: 14544

URI: https://scholarworks.dongguk.edu/handle/sw.dongguk/2351

DOI: 10.1039/d2dt01966c

ISSN: 1477-9226
1477-9234

Abstract: In everyday life, superior lithium-ion batteries (LIBs), with fast charging ability, have become valuable assets. The LIB performance of an anode composite copper cobalt tin sulphide (Cu2CoSnS4; CCTS) electrode, which was fabricated using a simple and easy hydrothermal method, was investigated. The electrochemical charge storage performance of the CCTS anode demonstrated sustainability, high-rate capability and efficiency. The CCTS anode exhibited a first discharge capacity of 914.5 mA h g(-1) and an average specific capacity of 198.7 mA h g(-1) in consecutive cycles at a current density of 0.1 A g(-1). It had a capacity retention of similar to 62.0% and a coulombic efficiency of more than 83% after over 100 cycles, demonstrating its excellent cycling performance and reversibility. It can be an alternative anode to other established electrode materials for real battery applications.

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Appears in Collections: College of Advanced Convergence Engineering > ETC > 1. Journal Articles; College of Natural Science > Department of Physics > 1. Journal Articles; College of Advanced Convergence Engineering > Division of System Semiconductor > 1. Journal Articles

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