摘要
A suitable interface between the electrode and electrolyte is crucial in achieving highly stable electrochemical performance for Li-ion batteries,as facile ionic transport is required.Intriguing research and development have recently been conducted to form a stable interface between the electrode and electrolyte.Therefore,it is essential to investigate emerging knowledge and contextualize it.The nanoengineering of the electrode-electrolyte interface has been actively researched at the electrode/electrolyte and interphase levels.This review presents and summarizes some recent advances aimed at nanoengineering approaches to build a more stable electrode-electrolyte interface and assess the impact of each approach adopted.Furthermore,future perspectives on the feasibility and practicality of each approach will also be reviewed in detail.Finally,this review aids in projecting a more sustainable research pathway for a nanoengineered interphase design between electrode and electrolyte,which is pivotal for high-performance,thermally stable Li-ion batteries.
基金
supported by funding from Bavarian Center for Battery Technology(Baybatt,Hightech Agenda Bayern)and Bayerisch-Tschechische Hochschulagentur(BTHA)(BTHA-AP-202245,BTHA-AP-2023-5,and BTHA-AP-2023-12)
supported by the University of Bayreuth-Deakin University Joint Ph.D.Program
supported by the Regional Innovation Strategy(RIS)through the National Research Foundation of Korea(NRF)funded by the Ministry of Education(MOE)(2021RIS-003)
supported by the National Research Foundation of Korea(NRF)grant funded by the Korea government(MSIT)(No.RS2023-00213749)