摘要
Li_(2)S-P_(2)S_(5)-type inorganic solid electrolytes with cation and/or anion doping are considered to be promising candidates for all-solid-state batteries(ASSBs),due to their high ionic conductivity and electrochemical performances.However,compositional tuning of Li_(2)S-P_(2)S_(5) type inorganic solid electrolytes without doping has not been fully studied.In this work,Li-rich Li_(7)P_(2)S_(8)I solid electrolyte was prepared with compositional tuning by high energy ball mill process.The crystalline nature and the structural characteristics of the prepared solid electrolytes were studied with several physiochemical techniques.The effect of compositional tuning and the associated limitations were analyzed by laser Raman spectroscopy and solid-nuclear magnetic resonance spectroscopy(NMR)analysis techniques.The prepared Li-rich Li_(7)P_(2)S_(8)I solid electrolyte exhibited higher ionic conductivity(6.27 mS cm^(-1))than the bare Li_(7)P_(2)S_(8)I solid electrolyte(5.16 mS cm^(-1)).Further,the prepared Li_(7.1)P_(2)S_(8.1)I_(0.9) solid electrolyte is highly stable against lithium metal anode and is stable up to 600 charge-discharge cycles.Thus,the fabricated ASSB using Li-rich Li_(7)P_(2)S_(8)I solid electrolyte exhibited excellent cycle stability of 97% specific capacity retention with less interfacial reaction.Electrochemical impedance spectroscopy and the laser Raman spectroscopy analysis after galvanostatic charge-discharge cycling confirmed the electrochemical stability of Li-rich Li_(7)P_(2)S_(8)I solid electrolyte.
基金
supported by the National Research Foundation of Korea(NRF)grant(No.NRF-2019R1A6A1A11053838)
funded by the Ministry of Education,Science and Technology(MEST)of the Korean Government.
作者简介
Corresponding author at:Kwang-Sun Ryu,Department of Chemistry,University of Ulsan,Doowang-dong,Nam-gu,Ulsan 44776,Korea.E-mail address:ryuks@ulsan.ac.kr。
