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作 者:Zhifang Wang Yushu Zhang Penghui Zhang Dong Yan Jinjin Liu Yao Chen Qi Liu Peng Cheng Michael JZaworotko Zhenjie Zhang
机构地区:[1]Renewable Energy Conversion and Storage Center,Frontiers Science Center for New Organic Matter,College of Chemistry,Nankai University,Tianjin,300071,China [2]Key Laboratory of Advanced Energy Materials Chemistry(Ministry of Education),Nankai University,Tianjin,300071,China [3]College of Pharmacy,Nankai University,Tianjin,300071,China [4]Department of Chemical Sciences and Bernal Institute,University of Limerick,Limerick,V94 T9PX,Ireland [5]Department of Physics,City University of Hong Kong,Hong Kong,999077,China
出 处:《eScience》2022年第3期311-318,共8页电化学与能源科学(英文)
基 金:supported by Tianjin Natural Science Foundation(20JCJQJC00170);National Natural Science Foundation of China(22001131 and 22175099);Frontiers Science Center for New Organic Matter of Nankai University(63181206);111 Project(B12015);Postdoctoral Science Foundation of China(2019M660974).
摘 要:Solid polymer electrolytes have demonstrated high promise to solve the safety problems caused by conventional liquid electrolytes in lithium ion batteries.However,the inherent flammability of most polymer electrolyte materials remains unresolved,hence hindering their further industrial application.Addressing this challenge,we designed and constructed a thermal-responsive imide-linked covalent organic framework(COF)bearing ortho-positioned hydroxy groups as precursors,which can conduct a thermal rearrangement to transform into a highly crystalline and robust benzoxazole-linked COF upon heating.Benefiting from the release of carbon dioxide through thermal rearrangement reaction,this COF platform exhibited excellent flame retardant properties.By contrast,classic COFs(e.g.,boronate ester,imine,olefin,imide linked)were all flammable.Moreover,incorpo-rating polyethylene glycol and Li salt into the COF channels can produce solid polymer electrolytes with outstanding flame retardancy,high ionic conductivity(6.42×10^(-4) S cm^(-1))and a high lithium-ion transference number of 0.95.This thermal rearrangement strategy not only opens a new route for the fabrication of ultrastable COFs,but also provides promising perspectives to designing flame-retardant materials for energy-related applications.
关 键 词:Covalent organic frameworks Thermal rearrangement Flame retardancy Solid polymer electrolytes Lithium-ion batteries
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