Design strategies for rechargeable aqueous metal-ion batteries 被引量：1

导出

摘要 Rechargeable aqueous metal-ion batteries(AMBs)have attracted extensive scientific and commercial interest due to their potential for cost-effective,highly safe,and scalable stationary energy storage.However,their limited output voltage,inadequate energy density,and poor reversibility of ambiguous electrode reactions in aqueous electrolytes strongly limit their practical viability.This review aims to elucidate the challenges of existing AMBs from the material design to whole device applications.We summarize the emerging electrochemistry,fundamental properties,and key issues in interfacial behaviors of various classes of prevailing AMBs,including aqueous alkali metal-ion batteries and multivalent-ion batteries,and present an appraisal of recent advances for addressing the performance deficiency.Specifically,the progress of zinc-ion batteries is highlighted to provide a ubiquitous guideline for their commercialization in the grid-scale energy storage.Finally,we figure out the dominating general challenges for achieving high-performance AMBs,laying out a perspective for future breakthroughs.

作者 Yang Li Xin Zhao Yifu Gao Yichen Ding Zhichun Si Liubing Dong Dong Zhou Feiyu Kang

机构地区 Tsinghua Shenzhen International Graduate School College of Chemistry and Materials Science

出处《Science China Chemistry》 SCIE EI CSCD 2024年第1期165-190,共26页 中国科学（化学英文版）

基金 supported by National Key Research and Development Program of China(2022YFB2404500) Shenzhen Outstanding Talents Training Fund。

关键词 aqueous metal-ion batteries aqueous alkali metal-ion batteries zinc-ion batteries interfacial behavior stationary energy storage

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1

1Chao Wang,Yinxiang Zeng,Xiang Xiao,Shijia Wu,Guobin Zhong,Kaiqi Xu,Zengfu Wei,Wei Su,Xihong Lu.γ-MnO2 nanorods/graphene composite as efficient cathode for advanced rechargeable aqueous zinc-ion battery[J].Journal of Energy Chemistry,2020,29(4):182-187. 被引量：21

共引文献22

1陈均桄.水系锌离子二次电池正极锰基化合物研究进展[J].南宁师范大学学报（自然科学版）,2020,37(1):75-80. 被引量：5
2Zhiguo Hou,Xueqian Zhang,Mengfei Dong,Yali Xiong,Zixiang Zhang,Huaisheng Ao,Mengke Liu,Yongchun Zhu,Yitai Qian.A large format aqueous rechargeable LiMn_(2)O_(4)/Zn battery with high energy density and long cycle life[J].Science China Materials,2021,64(3):783-788. 被引量：2
3张华旭,亨瑞,刘昊,廖立兵.水系锌离子电池二氧化锰正极的储能特性及机理研究进展[J].精细化工,2021,38(3):464-473. 被引量：6
4Qiao-Nan Zhu,Zhen-Ya Wang,Jia-Wei Wang,Xiao-Yu Liu,Dan Yang,Li-Wei Cheng,Meng-Yao Tang,Yu Qin,Hua Wang.Challenges and strategies for ultrafast aqueous zinc-ion batteries[J].Rare Metals,2021,40(2):309-328. 被引量：7
5Chunfu HUANG,Cong WU,Zilu ZHANG,Yunyun XIE,Yang LI,Caihong YANG,Hai WANG.Crystalline and amorphous Mn0_(2)cathodes with open framework enable high-performance aqueous zinc-ion batteries[J].Frontiers of Materials Science,2021,15(2):202-215. 被引量：2
6Shouxiang Ding,Mingzheng Zhang,Runzhi Qin,Jianjun Fang,Hengyu Ren,Haocong Yi,Lele Liu,Wenguang Zhao,Yang Li,Lu Yao,Shunning Li,Qinghe Zhao,Feng Pan.Oxygen‑Deficient β‑MnO_(2)@Graphene Oxide Cathode for High‑Rate and Long‑Life Aqueous Zinc Ion Batteries[J].Nano-Micro Letters,2021,13(11):203-214. 被引量：5
7Pian Zhang,Yun-hao Wu,Hao-ran Sun,Jia-qi Zhao,Zhi-ming Cheng,Xiao-hong Kang.MnO_(2)/carbon nanocomposite based on silkworm excrement for high-performance supercapacitors[J].International Journal of Minerals,Metallurgy and Materials,2021,28(10):1735-1744. 被引量：1
8侯朝霞,孔佑健,王凯,李思瑶,王悦.水系锌离子电池研究进展[J].电子元件与材料,2021,40(12):1163-1170. 被引量：5
9Nakarin Subjalearndee,Nanfei He,Hui Cheng,Panpanat Tesatchabut,Priew Eiamlamai,Pimpa Limthongkul,Varol Intasanta,Wei Gao,Xiangwu Zhang.Gamma(ɣ)‑MnO_(2)/rGO Fibered Cathode Fabrication from Wet Spinning and Dip Coating Techniques for Cable‑Shaped Zn‑Ion Batteries[J].Advanced Fiber Materials,2022,4(3):457-474. 被引量：3
10Zhi-Hao Su,Run-Hao Wang,Jiong-Hao Huang,Rui Sun,Zhao-Xia Qin,Yu-Fei Zhang,Hao-Sen Fan.Silver vanadate(Ag_(0.33)V_(2)O_(5))nanorods from Ag intercalated vanadium pentoxide for superior cathode of aqueous zinc-ion batteries[J].Rare Metals,2022,41(8):2844-2852. 被引量：7

同被引文献12

1Yuhui Xu,Gaini Zhang,Jingqian Liu,Jianhua Zhang,Xiaoxue Wang,Xiaohua Pu,Jingjing Wang,Cheng Yan,Yanyan Cao,Huijuan Yang,Wenbin Li,Xifei Li.Recent Advances on Challenges and Strategies of Manganese Dioxide Cathodes for Aqueous Zinc-Ion Batteries[J].Energy & Environmental Materials,2023,6(6):158-181. 被引量：3
2郑勇平,冯倩,汤怒江,都有为.石墨炔制备与发光性能（英文）[J].新型炭材料,2018,33(6):516-521. 被引量：4
3LI Jiaofu,CHEN Yanhuan,WANG Fuhui,GUO Jie,HE Feng,LIU Huibiao.Graphdiyne Hybrid Nanowall Arrays for High-capacity Aqueous Rechargeable Zinc Ion Battery[J].Chemical Research in Chinese Universities,2021,37(6):1301-1308. 被引量：2
4武丽莎,张明慧,徐文,董琰峰.炭材料在柔性锌离子电池中的研究进展[J].新型炭材料（中英文）,2022,37(5):827-851. 被引量：2
5张婷,王宇晶,于灵敏,士丽敏,柴守宁,何炽.石墨炔:一种新型二维炭材料的合成、改性与应用[J].新型炭材料（中英文）,2022,37(6):1089-1115. 被引量：1
6贡昀,薛裕华.纳米炭材料应用于稳定锌离子电池中锌负极[J].新型炭材料（中英文）,2023,38(3):438-458. 被引量：1
7Jizhang Chen,Minfeng Chen,Hong Ma,Weijun Zhou,Xinwu Xu.Advances and perspectives on separators of aqueous zinc ion batteries[J].Energy Reviews,2022,1(1):34-42. 被引量：3
8Wei Zhong,Jiahui Zhang,Zongmiao Li,Zeyu Shen,Shichao Zhang,Xinyang Wang,Yingying Lu.Issues and strategies of cathode materials for mild aqueous static zinc-ion batteries[J].Green Chemical Engineering,2023,4(3):264-284. 被引量：2
9Huibo Yan,Songmei Li,Jinyan Zhong,Bin Li.An Electrochemical Perspective of Aqueous Zinc Metal Anode[J].Nano-Micro Letters,2024,16(1):274-312. 被引量：1
10Xin Liu,Kun Wang,Ying Liu,Fuhua Zhao,Jianjiang He,Hao Wu,Jianfei Wu,Han‐Pu Liang,Changshui Huang.Constructing an ion‐oriented channel on a zinc electrode through surface engineering[J].Carbon Energy,2023,5(11):2-14. 被引量：2

引证文献1

1徐显敏,封文聪,任静柯,罗雯.石墨炔在水系离子电池中的研究进展[J].新型炭材料（中英文）,2024,39(3):388-406.

1Mingliang Yu,Xiulei Ji.Transition metal-ion mediated sulfur redox chemistry for aqueous batteries[J].National Science Review,2023,10(6):46-47.
2王文静.Obesity Changes The Brain,With‘No Sign Of Reversi Reversibility'Expert Says[J].语数外学习（高中版）（上）,2023(8):91-92.
3Jian Peng,Hong Li,Liquan Chen,Fan Wu.Application of Liquid Metal Electrodes in Electrochemical Energy Storage[J].Precision Chemistry,2023,1(8):452-467.
4Pranav Kulkarni,Sun-Sik Kim,Hyun Young Jung.Chemical surface tuning of zinc metal anode toward stable,dendrite-less aqueous zinc-ion batteries[J].Journal of Energy Chemistry,2023(11):1-8.
5Juan PENG,Dengke LI,Zaixing HUANG,Guangjian PENG,Peijian CHEN,Shaohua CHEN.Interfacial behavior of a thermoelectric film bonded to a graded substrate[J].Applied Mathematics and Mechanics(English Edition),2023,44(11):1853-1870.
6Yizhen Wang,Feibo Song,Siling Wang,Miaolin Lan,Tingdong Li,Huilin Guo,Yali Zhang,Shengxiang Ge,Zizheng Zheng,Ningshao Xia.Nanoparticle-based multivalent human antibodies offer potent and broad neutralization against Omicron sublineages[J].Signal Transduction and Targeted Therapy,2023,8(9):3909-3912.
7Zhongtang Li,Zuotian Huang,Yunhai Luo,Hang Yang,Mei Yang.Corrigendum to: DUSP9 alleviates hepatic ischemia/ reperfusion injury by restraining both mitogen-activated protein kinase and IKK in an apoptosis signal-regulating kinase 1-dependent manner[J].Acta Biochimica et Biophysica Sinica,2023,55(12):2013-2013.
8Xu Zhang,Shiqi Liu,Boya Wang,Guoqing Wang,Haozhe Du,Xuanyu Wang,Haidong Zhang,Shu Zhao,Lin Wang,Haijun Yu.Mn-based cathode materials for rechargeable batteries[J].Science China Chemistry,2024,67(1):87-105. 被引量：1
9YANG Renfeng,CHEN Dongsheng,ZHENG Wei,MIAO Tingting,LIU Fan,WANG Taichao,CHEN Hengyuan,CHENG Tong.Theoretical Insight into the Effect of Steam Temperature on Heavy Oil/Steam Interface Behaviors Using Molecular Dynamics Simulation[J].Journal of Thermal Science,2023,32(6):2179-2195.
10Qi Jin,Kaixin Zhao,Lili Wu,Lu Li,Long Kong,Xitian Zhang.Enhancing Li cycling coulombic efficiency while mitigating “shuttle effect” of Li-S battery through sustained release of LiNO_(3)[J].Journal of Energy Chemistry,2023(9):22-29.

Science China Chemistry

2024年第1期

浏览历史

内容加载中请稍等...

Design strategies for rechargeable aqueous metal-ion batteries 被引量：1

参考文献1

共引文献22

同被引文献12

引证文献1

相关作者

相关机构

相关主题

浏览历史