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| Research on doping of lithium-ion conductive anti-perovskite solid electrolytes for new energy vehicle lithium-ion battery |
| LIU Shuqin1,LIU Jun2,LI Zhiyong3 |
| (1. Yancheng Technician College Jiangsu Province, College of Automotive Engineering, Yancheng 224002, China;
2.Jiangsu University ,College of Automotive and Traffic Engineering, Zhenjiang 212013, China; 3. Zhejiang
Kaiying New Material Co., LTD, Hangzhou 224002, China) |
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Abstract The conventional liquid electrolyte of lithium-ion battery is flammable, which give rise to safety
worries. With the increasing of safety requirements of secondary battery nowadays, solid-state battery has become
a hot spot of new secondary battery in recent years. Among all kinds of solid electrolytes, the anti-perovskite elec‐
trolyte has attracted extensive attention because of its advantages of low-cost precursor, easy to be synthesized, and
outstanding processability. However, the ionic conductivity of anti-perovskite electrolyte is low, which is only
10-6-10-5 S/cm in room temperature, and limits its application in new energy vehicles. In this study, bromo-magne‐
sium co-doping is used to improve the ionic conductivity of the anti-perovskite electrolyte. More lithium vacancies
can be introduced by bromine doping on chlorine site and magnesium doping on lithium site, which reduces the
activation energy of lithium-ion migration and increases the ionic conductivity of anti-perovskite electrolyte by
4.5 times. Finally, solid state lithium metal battery is assembled with lithium cobalt oxides as active material.
The capacity retention rate of the anti-perovskite based solid-state battery reaches to 90.1% after 100 cycles at
2C rate.
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Received: 22 April 2022
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2023, Vol. 33 
