Yang et al. Energy Mater 2024;4:400061  https://dx.doi.org/10.20517/energymater.2023.144  Page 23 of 23

                   polymer electrolytes. J Mater Chem A 2022;10:23095-102.  DOI
               83.      Zhang Q, Zhang X, Hou L, et al. Regulating solvation structure in nonflammable amide-based electrolytes for long-cycling and safe
                   lithium metal batteries. Adv Energy Mater 2022;12:2200139.  DOI
               84.      Liu Y, Li C, Li C, et al. Porous, robust, thermally stable, and flame retardant nanocellulose/polyimide separators for safe lithium-ion
                   batteries. J Mater Chem A 2023;11:23360-9.  DOI
               85.      Zhang H, Chen J, Liu J, et al. Gel electrolyte with flame retardant polymer stabilizing lithium metal towards lithium-sulfur battery.
                   Energy Stor Mater 2023;61:102885.  DOI
               86.      Zhang Q, Liu X, Li H, et al. A multifunctional silicon-doped polyether network for double stable interfaces in quasi-solid-state lithium
                   metal batteries. Small 2022;18:e2106395.  DOI
               87.      Chen Y, Ling C, Long K, et al. A siloxane-based self-healing gel electrolyte with deep eutectic solvents for safe quasi-solid-state
                   lithium metal batteries. Chem Eng J 2024;488:150888.  DOI
               88.      Yang JH, Jeong YK, Kim W. Dual flame-retardant mechanism-assisted suppression of thermal runaway in lithium metal batteries with
                   improved electrochemical performances. Adv Energy Mater 2024:2304366.  DOI
               89.      Roh Y, Kim D, Jin D, et al. Enhanced safety of lithium ion batteries through a novel functional separator with encapsulated flame
                   retardant and hydroxide ceramics. Chem Eng J 2023;474:145937.  DOI