新型柔性储能器件:柔性锂离子电池
|
摘要
柔性锂离子电池是一种新兴的锂离子电池,虽然与锂离子电池的工作原理相同,但使用柔性的集流体,因此展现出柔性,以及可弯折、可伸缩的特性,所以可以成为柔性/可穿戴器件的动力源。介绍了2种实现柔性锂离子电池的途径:一种是开发基于各种导电集流体(包括碳纳米管、石墨烯和碳布)的柔性锂离子电池;另一种是设计和构筑新型结构(包括电缆/电线型、透明型和可伸缩型)的柔性锂离子电池。
Flexible lithium-ion battery is an emerging lithium-ion battery,which has the same working principle with the conventional lithium ion battery.However,it uses the flexible current collector,which endows it flexible,bendable,stretchable characteristics,thus being a power source for flexible/wearable devices.Herein,we introduce two ways to realize flexible lithium-ion battery,on one hand,developing various conductive current collectors(including carbon nanotube,graphene and carbon cloth)-based flexible lithium-ion battery,on the other hand,designing and constructing flexible lithium-ion battery with new structures(including cable/wire type,transparent and stretchable).
Flexible lithium-ion battery is an emerging lithium-ion battery,which has the same working principle with the conventional lithium ion battery.However,it uses the flexible current collector,which endows it flexible,bendable,stretchable characteristics,thus being a power source for flexible/wearable devices.Herein,we introduce two ways to realize flexible lithium-ion battery,on one hand,developing various conductive current collectors(including carbon nanotube,graphene and carbon cloth)-based flexible lithium-ion battery,on the other hand,designing and constructing flexible lithium-ion battery with new structures(including cable/wire type,transparent and stretchable).
引文
[1]黄可龙,王兆翔,刘素琴.锂离子电池原理与关键技术.北京:化学工业出版社,2007:6-10
[2]吴宇平,袁翔云,董超,等.锂离子电池---应用与实践.北京:化学工业出版社,2011:6-10
[3]王恒国,段潜,李艳辉.锂离子电池与无机纳米电极材料.北京:化学工业出版社,2016:10-11
[4]邱玉凤,江家发.化学教育,2011,32(8):1-3
[5]Zhou G M,Li F,Cheng H M.Energy Environ.Sci.,2014,7(4):1307-1338
[6]闻雷,陈静,罗洪泽,等.科学通报,2015,60(7):630-644
[7]史菁菁,郭星,陈人杰,等.化学进展,2016,28(4):577-588
[8]Hu L B,Wu H,La Mantia F,et al.ACS Nano,2010,4(10):5843-5848
[9]Li N,Chen Z P,Ren W C,et al.Proc.Natl.Acad.Sci.U.S.A.,2012,109(43):17360-17365
[10]Liu B,Zhang J,Wang X F,et al.Nano Lett.,2012,12(6):3005-3011
[11]Kwon Y H,Woo S W,Jung H R,et al.Adv.Mater.,2012,24(38):5192-5197
[12]Yang Y,Jeong S,Hu L B,et al.Proc.Natl.Acad.Sci.U.S.A.,2011,108(32):13013-13018
[13]Xu S,Zhang Y H,Cho J,et al.Nat.Commun.,2013,4:1543
[14]Koo M,Park K I,Lee S H,et al.Nano Lett.,2012,12(9):4810-4816
[2]吴宇平,袁翔云,董超,等.锂离子电池---应用与实践.北京:化学工业出版社,2011:6-10
[3]王恒国,段潜,李艳辉.锂离子电池与无机纳米电极材料.北京:化学工业出版社,2016:10-11
[4]邱玉凤,江家发.化学教育,2011,32(8):1-3
[5]Zhou G M,Li F,Cheng H M.Energy Environ.Sci.,2014,7(4):1307-1338
[6]闻雷,陈静,罗洪泽,等.科学通报,2015,60(7):630-644
[7]史菁菁,郭星,陈人杰,等.化学进展,2016,28(4):577-588
[8]Hu L B,Wu H,La Mantia F,et al.ACS Nano,2010,4(10):5843-5848
[9]Li N,Chen Z P,Ren W C,et al.Proc.Natl.Acad.Sci.U.S.A.,2012,109(43):17360-17365
[10]Liu B,Zhang J,Wang X F,et al.Nano Lett.,2012,12(6):3005-3011
[11]Kwon Y H,Woo S W,Jung H R,et al.Adv.Mater.,2012,24(38):5192-5197
[12]Yang Y,Jeong S,Hu L B,et al.Proc.Natl.Acad.Sci.U.S.A.,2011,108(32):13013-13018
[13]Xu S,Zhang Y H,Cho J,et al.Nat.Commun.,2013,4:1543
[14]Koo M,Park K I,Lee S H,et al.Nano Lett.,2012,12(9):4810-4816