Flexible Zn-Ion Batteries: Recent Progresses and Challenges

被引:528
作者
Yu, Peng [1 ]
Zeng, Yinxiang [1 ]
Zhang, Haozhe [1 ]
Yu, Minghao [1 ,2 ,3 ]
Tong, Yexiang [1 ]
Lu, Xihong [1 ,4 ]
机构
[1] Sun Yat Sen Univ, MOE Key Lab Bioinorgan & Synthet Chem, Key Lab Low Carbon Chem & Energy Conservat Guangd, Sch Chem,KLGHEI Environm & Energy Chem, Guangzhou 510275, Guangdong, Peoples R China
[2] Tech Univ Dresden, Ctr Advancing Elect Dresden Cfaed, Mommsenstr 4, D-01062 Dresden, Germany
[3] Tech Univ Dresden, Dept Chem & Food Chem, Mommsenstr 4, D-01062 Dresden, Germany
[4] Harbin Univ Sci & Technol, Minist Educ, Key Lab Engn Dielect & Applicat, Harbin 150080, Heilongjiang, Peoples R China
来源
SMALL | 2019年 / 15卷 / 07期
基金
中国国家自然科学基金;
关键词
device design; flexible; solid-state; Zn-ion batteries; HIGH-ENERGY DENSITY; ELECTRODE MATERIALS; HIGH-CAPACITY; ZINC-STORAGE; ALKALINE BATTERIES; COPPER HEXACYANOFERRATE; CATHODE MATERIAL; PRUSSIAN BLUE; PERFORMANCE; INTERCALATION;
D O I
10.1002/smll.201804760
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
To keep pace with the increasing pursuit of portable and wearable electronics, it is urgent to develop advanced flexible power supplies. In this context, Zn-ion batteries (ZIBs) have garnered increasing attention as favorable energy storage devices for flexible electronics, owing to the high capacity, low cost, abundant resources, high safety, and eco-friendliness. Extensive efforts have been devoted to developing flexible ZIBs in the last few years. This work summarizes the recent achievements in the design, fabrication, and characterization of flexible ZIBs. Representative structures, such as sandwich and cable type, are particularly highlighted. Special emphasis is put on the novel design of electrolyte and electrode, which aims to endow reliable flexibility to the fabricated ZIBs. Moreover, current challenges and future opportunities for the development of high-performance flexible ZIBs are also outlined.
引用
收藏
页数:27
相关论文
共 159 条
[1]   Electrochemical Zinc Intercalation in Lithium Vanadium Oxide: A High-Capacity Zinc-Ion Battery Cathode [J].
Alfaruqi, Muhammad H. ;
Mathew, Vinod ;
Song, Jinju ;
Kim, Sungjin ;
Islam, Saiful ;
Pham, Duong Tung ;
Jo, Jeonggeun ;
Kim, Seokhun ;
Baboo, Joseph Paul ;
Xiu, Zhiliang ;
Lee, Kug-Seung ;
Sun, Yang-Kook ;
Kim, Jaekook .
CHEMISTRY OF MATERIALS, 2017, 29 (04) :1684-1694
[2]   Electrochemically Induced Structural Transformation in a γ-MnO2 Cathode of a High Capacity Zinc-Ion Battery System [J].
Alfaruqi, Muhammad H. ;
Mathew, Vinod ;
Gim, Jihyeon ;
Kim, Sungjin ;
Song, Jinju ;
Baboo, Joseph P. ;
Choi, Sun H. ;
Kim, Jaekook .
CHEMISTRY OF MATERIALS, 2015, 27 (10) :3609-3620
[3]   Structural transformation and electrochemical study of layered MnO2 in rechargeable aqueous zinc-ion battery [J].
Alfaruqi, Muhammad Hilmy ;
Islam, Saiful ;
Putro, Dimas Yunianto ;
Mathew, Vinod ;
Kim, Sungjin ;
Jo, Jeonggeun ;
Kim, Seokhun ;
Sun, Yang-Kook ;
Kim, Kwangho ;
Kim, Jaekook .
ELECTROCHIMICA ACTA, 2018, 276 :1-11
[4]   Ambient redox synthesis of vanadium-doped manganese dioxide nanoparticles and their enhanced zinc storage properties [J].
Alfaruqi, Muhammad Hilmy ;
Islam, Saiful ;
Mathew, Vinod ;
Song, Jinju ;
Kim, Sungjin ;
Duong Pham Tung ;
Jo, Jeonggeun ;
Kim, Seokhun ;
Baboo, Joseph Paul ;
Xiu, Zhiliang ;
Kim, Jaekook .
APPLIED SURFACE SCIENCE, 2017, 404 :435-442
[5]   A layered δ-MnO2 nanoflake cathode with high zinc-storage capacities for eco-friendly battery applications [J].
Alfaruqi, Muhammad Hilmy ;
Gim, Jihyeon ;
Kim, Sungjin ;
Song, Jinju ;
Duong Tung Pham ;
Jo, Jeonggeun ;
Xiu, Zhiliang ;
Mathew, Vinod ;
Kim, Jaekook .
ELECTROCHEMISTRY COMMUNICATIONS, 2015, 60 :121-125
[6]   Enhanced reversible divalent zinc storage in a structurally stable α-MnO2 nanorod electrode [J].
Alfaruqi, Muhammad Hilmy ;
Gim, Jihyeon ;
Kim, Sungjin ;
Song, Jinju ;
Jo, Jeonggeun ;
Kim, Seokhun ;
Mathew, Vinod ;
Kim, Jaekook .
JOURNAL OF POWER SOURCES, 2015, 288 :320-327
[7]  
[Anonymous], 2018, ANGEW CHEM INT EDIT
[8]   Pilotaxitic Na1.1V3O7.9 nanoribbons/graphene as high-performance sodium ion battery and aqueous zinc ion battery cathode [J].
Cai, Yangsheng ;
Liu, Fei ;
Luo, Zhigao ;
Fang, Guozhao ;
Zhou, Jiang ;
Pan, Anqiang ;
Liang, Shuquan .
ENERGY STORAGE MATERIALS, 2018, 13 :168-174
[9]   Odyssey of Multivalent Cathode Materials: Open Questions and Future Challenges [J].
Canepa, Pieremanuele ;
Gautam, Gopalakrishnan Sai ;
Hannah, Daniel C. ;
Malik, Rahul ;
Liu, Miao ;
Gallagher, Kevin G. ;
Persson, Kristin A. ;
Ceder, Gerbrand .
CHEMICAL REVIEWS, 2017, 117 (05) :4287-4341
[10]   Electrochemical Zinc-Ion Intercalation Properties and Crystal Structures of ZnMo6S8 and Zn2Mo6S8 Chevrel Phases in Aqueous Electrolytes [J].
Chae, Munseok S. ;
Heo, Jongwook W. ;
Lim, Sung-Chul ;
Hong, Seung-Tae .
INORGANIC CHEMISTRY, 2016, 55 (07) :3294-3301
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