Self-healable gels in electrochemical energy storage devices 被引量：1

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摘要 In the green energy and carbon-neutral technology,electrochemical energy storage devices have received continuously increasing attention recently.However,due to the unavoidable volume expansion/shrinkage of key materials or irreversible mechanical damages during application,the stability of energy storage and delivery as well as the lifetime of these devices are severely shortened,leading to serious performance degradation or even safety issues.Therefore,the utilization of self-healable gels into electrochemical energy storage devices,such as electrodes,binders,and electrolytes,is proven as an effective method to realize long-term stable operation of these devices via the self-repairing of mechanical and electrochemical characteristics.Herein,this review first summarizes the feature and fabrication of different gels,paying special attention to hydrogels,organohydrogels,and ionogels.Then,basic concepts and figure of merit of self-healable gels are analyzed with a detailed discussion at the healing mechanisms,from reversible dynamic bonds to physical molecular diffusion,and to external healing trigger.Then we introduce all the important parts of electrochemical energy storage devices,which could be replaced by healable gels to enhance the durability,including electrodes,binders,and electrolytes.Finally,the critical challenges and future perspectives regarding the future development of healable gels based high-performance electrochemical energy storage devices or electronics are provided.

作者 Yang Li PeiPei Ding Yuzhe Gu Sheng Qian Yuncong Pang Lele Wang Jiayang Feng Baoguang Liu Qi Wan Ping Li Zhiwei Liu

机构地区 College of Electronic and Optical Engineering&College of Flexible Electronics(Future Technology) State Key Laboratory of Organic Electronics and Information Displays&Jiangsu Key Laboratory for Biosensors College of Materials Science&Engineering Beijing Advanced Innovation Center for Materials Genome Engineering Pillar of Engineering Product Development School of Energy and Environmental Engineering

出处《Nano Research》 SCIE EI CSCD 2024年第4期3302-3323,共22页 纳米研究（英文版）

基金 supported by the Natural Science Research Start-up Foundation of Recruiting Talents of Nanjing University of Posts and Telecommunications(No.NY221111) Natural Science Foundation of the Higher Education Institutions of Jiangsu Province(No.22KJB430038)awarded to Y.L.Z.W.L. thanks the support from the National Natural Science Foundation Program of China(No.52204370) Open project of Hebei Key Laboratory of Hazardous Chemicals Safety and Control Technology(No.20211204-7).

关键词 self-healable gels healing mechanisms ELECTRODES binders gel electrolytes

分类号 O63 [理学—高分子化学]

作者简介 Yang Li,contributed equally to this work;PeiPei Ding,contributed equally to this work;Address correspondence to:Yang Li,yli@njupt.edu.cn;Address correspondence to:Zhiwei Liu,liuzhiwei@ustb.edu.cn。

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参考文献34

1Heng Zhang,Yuhui Chen,Chunmei Li,Michel Armand.Electrolyte and anode-electrolyte interphase in solid-state lithium metal polymer batteries:A perspective[J].SusMat,2021,1(1):24-37. 被引量：12
2Jiaxu Li,Junfeng Ren,Caixia Li,Pengxian Li,Tingting Wu,Shiwei Liu,Lei Wang.High-adhesion anionic copolymer as solid-state electrolyte for dendrite-free Zn-ion battery[J].Nano Research,2022,15(8):7190-7198. 被引量：1
3Ying-Zhi Sun,Jia-Qi Huang,Chen-Zi Zhao,Qiang Zhang.A review of solid electrolytes for safe lithium-sulfur batteries[J].Science China Chemistry,2017,60(12):1508-1526. 被引量：17
4Ruihong Liu,Tao Jiang,Dongzhi Liu,Xiang Ma.A facile and green strategy to obtain organic room-temperature phosphorescence from natural lignin[J].Science China Chemistry,2022,65(6):1100-1104. 被引量：3
5Yu-Ming Zhao,Feng-Shu Yue,Shi-Cheng Li,Yu Zhang,Zhong-Rong Tian,Quan Xu,Sen Xin,Yu-Guo Guo.Advances of polymer binders for silicon-based anodes in high energy density lithium-ion batteries[J].InfoMat,2021,3(5):460-501. 被引量：15
6Ruirui Wang,Renbing Wu,Chaofan Ding,Ziliang Chen,Hongbin Xu,Yongfeng Liu,Jichao Zhang,Yuan Ha,Ben Fei,Hongge Pan.Porous Carbon Architecture Assembled by Cross-Linked Carbon Leaves with Implanted Atomic Cobalt for High-Performance Li-S Batteries[J].Nano-Micro Letters,2021,13(10):98-112. 被引量：7
7Qiang Wu,Lijun Yang,Xizhang Wang,Zheng Hu.Mesostructured carbon-based nanocages: an advanced platform for energy chemistry[J].Science China Chemistry,2020,63(5):665-681. 被引量：6
8Yong Lu,Qiu Zhang,Jun Chen.Recent progress on lithium-ion batteries with high electrochemical performance[J].Science China Chemistry,2019,62(5):533-548. 被引量：24
9Yiran Sun,Fei Yu,Cong Li,Xiaohu Dai,Jie Ma.Nano-/Micro-confined Water in Graphene Hydrogel as Superadsorbents for Water Purification[J].Nano-Micro Letters,2020,12(1):13-26. 被引量：3
10Haoran Tang,Zixian Liu,Zhicheng Hu,Yuanying Liang,Fei Huang,Yong Cao.Oxoammonium enabled secondary doping of hole transporting material PEDOT:PSS for high-performance organic solar cells[J].Science China Chemistry,2020,63(6):802-809. 被引量：3

二级参考文献69

1ZHANG Ai, ZHENG ZongMin, CHENG FangYi, TAO ZhanLiang & CHEN Jun Key Laboratory of Advanced Energy Materials Chemistry, Ministry of Education,College of Chemistry, Nankai University, Tianjin 300071, China.Preparation of Li_4Ti_5O_(12) submicrospheres and their application as anode materials of rechargeable lithium-ion batteries[J].Science China Chemistry,2011,54(6):936-940. 被引量：10
2YIN YaXia,XIN Sen,WAN LiJun,LI CongJu,GUO YuGuo.SnO_2 hollow spheres:Polymer bead-templated hydrothermal synthesis and their electrochemical properties for lithium storage[J].Science China Chemistry,2012,55(7):1314-1318. 被引量：6
3LI JunTao,SU Hang,HUANG Ling,SUN ShiGang.Investigation of interfacial processes in graphite thin film anodes of lithium-ion batteries by both in situ and ex situ infrared spectroscopy[J].Science China Chemistry,2013,56(7):992-996. 被引量：3
4WANG JingLun,LUO Hao,MAI YongJin,ZHAO XinYue,ZHANG LingZhi.Synthesis of aminoalkylsilanes with oligo(ethylene oxide) unit as multifunctional electrolyte additives for lithium-ion batteries[J].Science China Chemistry,2013,56(6):739-745. 被引量：5
5DENG Xin,LIU XingRui,YAN HuiJuan,WANG Dong,WAN LiJun.Morphology and modulus evolution of graphite anode in lithium ion battery:An in situ AFM investigation[J].Science China Chemistry,2014,57(1):178-183. 被引量：7
6姚霞银,黄冰心,尹景云,彭刚,黄祯,高超,刘登,许晓雄.All-solid-state lithium batteries with inorganic solid electrolytes:Review of fundamental science[J].Chinese Physics B,2016,25(1):212-225. 被引量：11
7Sen Xin,Zhiwen Chang,Xinbo Zhang,Yu-Guo Guo.Progress of rechargeable lithium metal batteries based on conversion reactions[J].National Science Review,2017,4(1):54-70. 被引量：18
8Yu-Guo Guo,Jun Chen.Special topic on electrochemical power sources[J].Science China Chemistry,2017,60(12):1481-1482. 被引量：1
9Enyue Zhao,Xiqian Yu,Fangwei Wang,Hong Li.High-capacity lithium-rich cathode oxides with multivalent cationic and anionic redox reactions for lithium ion batteries[J].Science China Chemistry,2017,60(12):1483-1493. 被引量：4
10Gang Ge,Wei Huang,Jinjun Shao,Xiaochen Dong.Recent progress of flexible and wearable strain sensors for human-motion monitoring[J].Journal of Semiconductors,2018,39(1):175-195. 被引量：11

共引文献197

1Mustafa Khan,Suxia Yan,Mujahid Ali,Faisal Mahmood,Yang Zheng,Xiaohui Song,Guochun Li,Junfeng Liu,Yong Wang.From longan peel waste to energy storage:Porous activated carbon as a cathode matrix for advanced Li/Na-selenium batteries[J].Progress in Natural Science:Materials International,2024,34(2):329-337.
2金依洁,陈欣然,陈重一,赵传壮.离子特异性效应调控的功能水凝胶[J].离子交换与吸附,2023,39(3):216-227.
3Dan Duan,Xiaohan Cai,Cong Ma,Zongxi Lin,Yao Wang,Jianwei Nai,Tiefeng Liu,Jianmin Luo,Yujing Liu,Xinyong Tao.Considerable molecular interactions enable robust electrochemical properties:hydrogen bonds in lithium-ion batteries[J].Science China Chemistry,2023,66(7):1905-1923.
4Tao Li,He Liu,Peng Shi,Qiang Zhang.Recent progress in carbon/lithium metal composite anode for safe lithium metal batteries[J].Rare Metals,2018,37(6):449-458. 被引量：37
5杨慧军,傅璟,陈加航,郭城,郭瑞,解晶莹,王久林.高安全锂硫电池电解液研究进展[J].储能科学与技术,2018,7(6):1060-1068. 被引量：1
6胡策军,杨积瑾,王航超,陈一帆,张茸茸,刘文,孙晓明.锂硫电池安全性问题现状及未来发展态势[J].储能科学与技术,2018,7(6):1082-1093. 被引量：5
7闻雷,梁骥,石颖,陈静,孙振华,吴敏杰,李峰.柔性锂硫电池的材料设计与实现[J].储能科学与技术,2018,7(3):465-470. 被引量：2
8He Liu,Xinbing Cheng,Rui Zhang,Peng Shi,Xin Shen,Xiaoru Chen,Tao Li,Jiaqi Huang,Qiang Zhang.Mesoporous Graphene Hosts for Dendrite-Free Lithium Metal Anode in Working Rechargeable Batteries[J].Transactions of Tianjin University,2020,26(2):127-134. 被引量：11
9张琰,陶明明,谷巨明,王一菁.金属有机框架衍生的Bi/C复合材料作为钠离子电池负极材料的研究[J].金属功能材料,2020,27(1):1-7. 被引量：3
10叶戈,袁洪,赵辰孜,朱高龙,徐磊,侯立鹏,程新兵,何传新,南皓雄,刘全兵,黄佳琦,张强.全固态锂硫电池正极中离子输运与电子传递的平衡[J].储能科学与技术,2020,9(2):339-345. 被引量：2

同被引文献9

1Kexin Liu,Zhuyi Wang,Liyi Shi,Siriporn Jungsuttiwong,Shuai Yuan.Ionic liquids for high performance lithium metal batteries[J].Journal of Energy Chemistry,2021,30(8):320-333. 被引量：9
2Yixin Wu,Yu Li,Yang Wang,Qian Liu,Qingguo Chen,Minghua Chen.Advances and prospects of PVDF based polymer electrolytes[J].Journal of Energy Chemistry,2022,31(1):62-84. 被引量：21
3Chen-De Zhao,Jin-Zhi Guo,Zhen-Yi Gu,Xiao-Tong Wang,Xin-Xin Zhao,Wen-Hao Li,Hai-Yue Yu,Xing-Long Wu.Flexible quasi-solid-state sodium-ion full battery with ultralong cycle life,high energy density and high-rate capability[J].Nano Research,2022,15(2):925-932. 被引量：5
4Ahmed Eissa Abdelmaoula,Lulu Du,Lin Xu,Yu Cheng,Amir AMahdy,Muhammad Tahir,Ziang Liu,Liqiang Mai.Biomimetic brain-like nanostructures for solid polymer electrolytes with fast ion transport[J].Science China Materials,2022,65(6):1476-1484. 被引量：6
5Hanwen Liu,Qianqin Zhou,Qingbing Xia,Yaojie Lei,Xiang Long Huang,Mike Tebyetekerwa,Xiu Song Zhao.Interface challenges and optimization strategies for aqueous zinc-ion batteries[J].Journal of Energy Chemistry,2023(2):642-659. 被引量：6
6V.M.Leal,J.S.Ribeiro,E.L.D.Coelho,M.B.J.G.Freitas.Recycling of spent lithium-ion batteries as a sustainable solution to obtain raw materials for different applications[J].Journal of Energy Chemistry,2023(4):118-134. 被引量：11
7Fulai Zhao,Jinhong Xue,Wei Shao,Hui Yu,Wei Huang,Jian Xiao.Toward high-sulfur-content,high-performance lithium-sulfur batteries:Review of materials and technologies[J].Journal of Energy Chemistry,2023(5):625-657. 被引量：11
8Fan Zhang,Ting Liao,Cheng Yan,Ziqi Sun.Bioinspired designs in active metal-based batteries[J].Nano Research,2024,17(2):587-601. 被引量：3
9Ahmad Shokrieh,Amir Hossein Mirzaei,Lijuan Mao,Mahmood M.Shokrieh,Zhixiang Wei.A review of the mechanical integrity and electrochemical performance of flexible lithium-ion batteries[J].Nano Research,2023,16(12):12962-12982. 被引量：1

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1Lei Liu,Chen Liu,Meng-Ying Wang,Bin Li,Ke Wang,Xiang-Qian Fan,Li-Yong Wang,Hui-Qi Wang,Sheng-Liang Hu,Xun-Gang Diao.Anti-self-discharge ultrathin all-inorganic electrochromic asymmetric supercapacitors enabling intelligent and effective energy storage[J].Rare Metals,2023,42(9):2957-2971.
2Yanzhe Zhu,Peiyuan Guan,Renbo Zhu,Shuo Zhang,Ziheng Feng,Mengyao Li,Tao Wan,Long Hu,Yunjian Liu,Qin Li,Juan Yu,Dewei Chu.Recent advances in flexible alkaline zinc-based batteries:Materials,structures,and perspectives[J].Journal of Energy Chemistry,2023(12):61-88. 被引量：1
3Haiyang Liao,Wenzhao Zhong,Chen Li,Jieling Han,Xiao Sun,Xinhui Xia,Ting Li,Abolhassan Noori,Mir F.Mousavi,Xin Liu,Yongqi Zhang.An intrinsically self-healing and anti-freezing molecular chains induced polyacrylamide-based hydrogel electrolytes for zinc manganese dioxide batteries[J].Journal of Energy Chemistry,2024,89(2):565-578. 被引量：1
4Weixin Ye,Jirong Wang,Chi Zhang,Zhigang Xue.Eutectic Solution Enables Powerful Click Reaction for In-Situ Construction of Advanced Gel Electrolytes[J].Energy & Environmental Materials,2023,6(4):258-264.
5Xiaofang Bai,Yuwei Zhao,Mangwei Cui,Tianshuo Guo,Zijie Tang,Chuan Li,Heng Gao,Shuo Yang,Lingzhi Zhao,Chunyi Zhi,Hongfei Li.Highly uniform Co-Cu bimetallic sulfides for rechargeable alkaline aqueous zinc batteries[J].Chinese Chemical Letters,2024,35(2):521-526.
6Ahmad Shokrieh,Amir Hossein Mirzaei,Lijuan Mao,Mahmood M.Shokrieh,Zhixiang Wei.A review of the mechanical integrity and electrochemical performance of flexible lithium-ion batteries[J].Nano Research,2023,16(12):12962-12982. 被引量：1
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9Peiwen Liu,Hui Jin,Yan Chen,Derong Wang,Haohui Yan,Mingzhao Wu,Fang Zhao,Weiping Zhu.Process analytical technologies and self-optimization algorithms in automated pharmaceutical continuous manufacturing[J].Chinese Chemical Letters,2024,35(3):87-95. 被引量：1
10Xugang WU,Huijun WU,Ruibo WANG,Xu ZHOU,Kai LU.Towards adaptive graph neural networks via solving prior-data conflicts[J].Frontiers of Information Technology & Electronic Engineering,2024,25(3):369-383.

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