Electrolyte Design for Low‑Temperature Li‑Metal Batteries:Challenges and Prospects 被引量：1

下载PDF

导出

摘要 Electrolyte design holds the greatest opportunity for the development of batteries that are capable of sub-zero temperature operation.To get the most energy storage out of the battery at low temperatures,improvements in electrolyte chemistry need to be coupled with optimized electrode materials and tailored electrolyte/electrode interphases.Herein,this review critically outlines electrolytes’limiting factors,including reduced ionic conductivity,large de-solvation energy,sluggish charge transfer,and slow Li-ion transportation across the electrolyte/electrode interphases,which affect the low-temperature performance of Li-metal batteries.Detailed theoretical derivations that explain the explicit influence of temperature on battery performance are presented to deepen understanding.Emerging improvement strategies from the aspects of electrolyte design and electrolyte/electrode interphase engineering are summarized and rigorously compared.Perspectives on future research are proposed to guide the ongoing exploration for better low-temperature Li-metal batteries.

作者 Siyu Sun Kehan Wang Zhanglian Hong Mingjia Zhi Kai Zhang Jijian Xu

机构地区 Department of Chemistry State Key Laboratory of Silicon Materials State Key Laboratory of Advanced Chemical Power Sources Department of Chemical and Biomolecular Engineering

出处《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第2期365-382,共18页 纳微快报（英文版）

基金 The work described in this paper was fully supported by a Grant from the City University of Hong Kong(Project No.9610641).

关键词 Solid electrolyte interphase Li metal Low temperature Electrolyte design BATTERIES

分类号 TM912 [电气工程—电力电子与电力传动]

引文网络
相关文献

参考文献6

1Xiaohong Wu,Kecheng Pan,Mengmin Jia,Yufei Ren,Hongyan He,Lan Zhang,Suojiang Zhang.Electrolyte for lithium protection: From liquid to solid[J].Green Energy & Environment,2019,4(4):360-374. 被引量：9
2Sisi Wang,Zhichen Xue,Fulu Chu,Zengqiang Guan,Jie Lei,Feixiang Wu.Moderately concentrated electrolyte enabling high-performance lithium metal batteries with a wide working temperature range[J].Journal of Energy Chemistry,2023(4):201-210. 被引量：1
3Xiang Li,Ruxin Zhao,Yongzhu Fu,Arumugam Manthiram.Nitrate additives for lithium batteries:Mechanisms,applications,and prospects[J].eScience,2021,1(2):108-123. 被引量：6
4Huaping Wang,Jiandong Liu,Jian He,Shihan Qi,Mingguang Wu,Fang Li,Junda Huang,Yun Huang,Jianmin Ma.Pseudo-concentrated electrolytes for lithium metal batteries[J].eScience,2022,2(5):557-565. 被引量：5
5Anran Pan,Zhicheng Wang,Fengrui Zhang,Lei Wang,Jingjing Xu,Jieyun Zheng,Jianchen Hu,Chenglong Zhao,Xiaodong Wu.Wide-temperature range and high safety electrolytes for highvoltage Li-metal batteries[J].Nano Research,2023,16(6):8260-8268. 被引量：2
6Li Sheng,Yanzhou Wu,Jiekang Tian,Li Wang,Jianlong Wang,Yaping Tang,Hong Xu,Xiangming He.Impact of Lithium-Ion Coordination on Lithium Electrodeposition[J].Energy & Environmental Materials,2023,6(1):177-183. 被引量：2

二级参考文献6

1LIN Hua,CHEN Kang-hua,SHUAI Yi,HE Xuan,GE Ke.Influence of CsNO_3 as electrolyte additive on electrochemical property of lithium anode in rechargeable battery[J].Journal of Central South University,2018,25(4):719-728. 被引量：4
2Zijian Wang,Kai Yang,Yongli Song,Hai Lin,Ke Li,Yanhui Cui,Luyi Yang,Feng Pan.Polymer matrix mediated solvation of LiNO3 in carbonate electrolytes for quasi-solid high-voltage lithium metal batteries[J].Nano Research,2020,13(9):2431-2437. 被引量：4
3Qianqian Liu,Yifei Xu,Jianghao Wang,Bo Zhao,Zijian Li,Hao Bin Wu.Sustained‑Release Nanocapsules Enable Long‑Lasting Stabilization of Li Anode for Practical Li‑Metal Batteries[J].Nano-Micro Letters,2020,12(12):239-250. 被引量：5
4Hanwen Liu,Wei-Hong Lai,Qiuran Yang,Yaojie Lei,Can Wu,Nana Wang,Yun-Xiao Wang,Shu-Lei Chou,Hua Kun Liu,Shi Xue Dou.Understanding Sulfur Redox Mechanisms in Different Electrolytes for Room-Temperature Na-S Batteries[J].Nano-Micro Letters,2021,13(8):107-120. 被引量：5
5Lei Zheng,Feng Guo,Tuo Kang,Yingzhu Fan,Wei Gu,Yayun Mao,Ya Liu,Rong Huang,Zhiyun Li,Yanbin Shen,Wei Lu,Liwei Chen.Stable Lithium-Carbon Composite Enabled by Dual-Salt Additives[J].Nano-Micro Letters,2021,13(7):127-137. 被引量：4
6Liansheng Li,Yuanfu Deng,Huanhuan Duan,Yunxian Qian,Guohua Chen.LiF and LiNO_(3) as synergistic additives for PEO-PVDF/LLZTO-based composite electrolyte towards high-voltage lithium batteries with dualinterfaces stability[J].Journal of Energy Chemistry,2022,31(2):319-328. 被引量：8

共引文献19

1廖红英,谢乐琼,何向明,王莉.LiPF_(6)基电解液应用于下一代二次电池的研究进展[J].电池工业,2021,25(2):97-105. 被引量：2
2Zhao Yan,Hong-Yi Pan,Jun-Yang Wang,Ru-Song Chen,Quan Li,Fei Luo,Xi-Qian Yu,Hong Li.Enhancing cycle stability of Li metal anode by using polymer separators coated with Ti-containing solid electrolytes[J].Rare Metals,2021,40(6):1357-1365. 被引量：2
3Qiang Zhao,Xin Chen,Wang Hou,Beirong Ye,Yongqi Zhang,Xinhui Xia,Jinshu Wang.A facile,scalable,high stability Lithium metal anode[J].SusMat,2022,2(1):104-112. 被引量：4
4Shufen Ye,Lifeng Wang,Fanfan Liu,Pengcheng Shi,Yan Yu.Integration of homogeneous and heterogeneous nucleation growth via 3D alloy framework for stable Na/K metal anode[J].eScience,2021,1(1):75-82. 被引量：7
5Xi Tang,Wen-Chao Zhang,Liu-Yue Cao.Multifunctional high-fluorine-content molecule with high dipole moment as electrolyte additive for high performance lithium metal batteries[J].Rare Metals,2022,41(3):726-729. 被引量：4
6Linshan Peng,Xiangkun Wu,Mengmin Jia,Weiwei Qian,Xiaoyan Zhang,Na Zhou,Lan Zhang,Cuiying Jian,Suojiang Zhang.Solvating power regulation enabled low concentration electrolyte for lithium batteries[J].Science Bulletin,2022,67(21):2235-2244. 被引量：3
7Yu Gao,Bing-Feng Cui,Jia-Jun Wang,Zhao-Yong Sun,Qiang Chen,Yi-Da Deng,Xiao-Peng Han,Wen-Bin Hu.Improving Li reversibility in Li metal batteries through uniform dispersion of Ag nanoparticles on graphene[J].Rare Metals,2022,41(10):3391-3400. 被引量：7
8Qingqing Liu,Ruiting Liu,Chaohui He,Chenfeng Xia,Wei Guo,Zheng-Long Xu,Bao Yu Xia.Advanced polymer-based electrolytes in zinc-air batteries[J].eScience,2022,2(5):453-466. 被引量：11
9Lingjun He,Chuyuan Lin,Peixun Xiong,Hui Lin,Wenbin Lai,Jingran Zhang,Fuyu Xiao,Liren Xiao,Qingrong Qian,Qinghua Chen,Lingxing Zeng.Progress in Electrolyte Engineering of Aqueous Batteries in a Wide Temperature Range[J].Transactions of Tianjin University,2023,29(5):321-346.
10Yingqiang Wu,Jiao Zhang,Jinli Liu,Li Sheng,Bo Zhang,Limin Wang,Siqi Shi,Li Wang,Hong Xu,Xiangming He.Boosting reversible charging of Li-ion batteries at low temperatures by a synergy of propylene carbonate-based electrolyte and defective graphite[J].Nano Research,2024,17(3):1491-1499. 被引量：1

同被引文献2

1Dongjiang Chen,Yuanpeng Liu,Chuan Xia,Yupei Han,Qingwei Sun,Xuchang Wang,Wei Chen,Xian Jian,Weiqiang Lv,Jianyi Ma,Weidong He.Polybenzimidazole functionalized electrolyte with Li-wetting and self-fluorination functionalities for practical Li metal batteries[J].InfoMat,2022,4(5):174-186. 被引量：4
2Haofan Duan,Yu You,Gang Wang,Xiangze Ou,Jin Wen,Qiao Huang,Pengbo Lyu,Yaru Liang,Qingyu Li,Jianyu Huang,Yun‑Xiao Wang,Hua‑Kun Liu,Shi Xue Dou,Wei‑Hong Lai.Lithium-Ion Charged Polymer Channels Flattening Lithium Metal Anode[J].Nano-Micro Letters,2024,16(4):379-393. 被引量：3

引证文献1

1Houzhen Li,Yongchao Kang,Wangran Wei,Chuncheng Yan,Xinrui Ma,Hao Chen,Yuanhua Sang,Hong Liu,Shuhua Wang.Branch-Chain-Rich Diisopropyl Ether with Steric Hindrance Facilitates Stable Cycling of Lithium Batteries at-20℃[J].Nano-Micro Letters,2024,16(10):121-135.

1Sichen Gu,Yang Haoyi,Yanxia Yuan,Yaning Gao,Na Zhu,Feng Wu,Ying Bai,Chuan Wu.Solvent Effects on Kinetics and Electrochemical Performances of Rechargeable Aluminum Batteries[J].Energy Material Advances,2022(1):241-250. 被引量：1
2Xiuping Yin,Zhaomin Wang,Yang Liu,Zhixiu Lu,Hongli Long,Tao Liu,Jiujun Zhang,Yufeng Zhao.Insight into the influence of ether and ester electrolytes on the sodium-ion transportation kinetics for hard carbon[J].Nano Research,2023,16(8):10922-10930. 被引量：2
3Zhengqiang Hu,Fengling Zhang,Anbin Zhou,Xin Hu,Qiaoyi Yan,Yuhao Liu,Faiza Arshad,Zhujie Li,Renjie Chen,Feng Wu,Li Li.Highly Reversible Zn Metal Anodes Enabled by Increased Nucleation Overpotential[J].Nano-Micro Letters,2023,15(10):197-209. 被引量：4
4Pengyu Meng,Jian Huang,Zhaohui Yang,Min Jiang,Yibo Wang,Wei Zhang,Jiao Zhang,Baode Sun,Chaopeng Fu.Air-Stable Binary Hydrated Eutectic Electrolytes with Unique Solvation Structure for Rechargeable Aluminum-Ion Batteries[J].Nano-Micro Letters,2023,15(10):595-608. 被引量：2
5Zhiyong Tang,Hongchao Yang,Ziqiang Sun,Yejun Zhang,Guangcun Chen,Qiangbin Wang.The activity of Zn precursors determines the cation exchange reaction kinetics with Ag_(2)S:Zn-doped Ag_(2)S or Ag_(2)S@ZnS QDs[J].Nano Research,2023,16(10):12315-12322.
6Chang-Xin Zhao,Jia-Ning Liu,Nan Yao,Xiaoyuan Zeng,Aibing Chen,Peng Dong,Yingjie Zhang,Xinzhi Ma,Cheng Tang,Bo-Quan Li,Qiang Zhang.Low-Temperature Working Feasibility of Zinc–Air Batteries with Noble Metal-Free Electrocatalysts[J].Renewables,2023,1(1):73-80. 被引量：3
7陈实,郭正伟,周步祥,刘艺洪,臧天磊,罗欢.考虑5G基站储能可调度容量的有源配电网协同优化调度方法[J].电网技术,2023,47(12):5225-5237. 被引量：8
8Tingzhou Yang,Yun Zheng,Yizhou Liu,Dan Luo,Aiping Yu,Zhongwei Chen.Reviving Low-Temperature Performance of Lithium Batteries by Emerging Electrolyte Systems[J].Renewables,2023,1(1):2-20. 被引量：2
9Azmat Ali Khan,Muhammad Tahir,Nazish Khan.LDH-based nanomaterials for photocatalytic applications:A comprehensive review on the role of bi/trivalent cations, anions,morphology, defect engineering, memory effect, and heterojunction formation[J].Journal of Energy Chemistry,2023(9):242-276.
10Dawei Xia,Hongpeng Gao,Mingqian Li,John Holoubek,Qizhang Yan,Yijie Yin,Panpan Xu,Zheng Chen.Enabling rechargeable Li-MnO_(2) batteries using ether electrolytes[J].SmartMat,2023,4(5):131-138. 被引量：1

Nano-Micro Letters

2024年第2期

浏览历史

内容加载中请稍等...