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Copper Zinc Tin Sulfide Anode Materials for Lithium-Ion Batteries at Low Temperature

Zeru Syum, Tadesse Billo Reta, Amr Sabbah, Boya Venugopal, Sheng-Yu Yu, Fang‐Yu Fu, Heng‐Liang Wu, Li–Chyong Chen, Kuei‐Hsien Chen

2021ACS Sustainable Chemistry & Engineering25 citationsDOI

Abstract

Developing novel materials is crucial to overcoming the performance degradation of lithium-ion batteries (LIBs) for low-temperature applications. In this work, we demonstrate a novel copper zinc tin sulfide (Cu2ZnSnS4, CZTS) thin film with nanowalls structure as the anode material in thin-film LIBs for low-temperature applications. The quaternary CZTS synthesized by a simple hydrothermal method shows a higher reversible capacity of 475 mAh g–1 after 200 cycles at −10 °C with the EC/DEC/DMC-based electrolyte in comparison with the graphite electrode (110 mAh g–1 after 100 cycles at −10 °C). The effects of temperature and electrolyte systems including EC/DEC- and EC/DEC/DMC-based electrolytes on the cycling performance are studied. The faster Li-ion transport in the electrolyte–electrode interface of the CZTS anode material is obtained in the EC/DEC/DMC-based electrolyte at −10 °C. In addition, the depth-profiling XPS results of the CZTS anode reveal that a solid electrolyte interphase (SEI) layer with less carbon content is formed in the EC/DEC/DMC-based electrolyte likely associated with the interfacial stability at low temperature. The enhanced cycling performance of CZTS could be attributed to its improved interfacial stability and Li+ diffusion, along with the formation of an interconnected active material architecture at low temperature.

Topics & Concepts

ElectrolyteAnodeMaterials scienceCZTSChemical engineeringTinSulfideElectrochemistryLithium (medication)Inorganic chemistryElectrodeLayer (electronics)ChemistryNanotechnologyMetallurgyEndocrinologyPhysical chemistryEngineeringMedicineAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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