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P. He, Yueli Quan, Xu Xu, Mengyu Yan, Wei Yang, Qinyou An, Liang He, L. Mai (2017)
High-Performance Aqueous Zinc-Ion Battery Based on Layered H2 V3 O8 Nanowire Cathode.Small, 13 47
Sizhe Wang, F. Gong, Shi-ze Yang, J. Liao, Mengqiang Wu, Zi-qiang Xu, Cheng Chen, Xiaofei Yang, Feipeng Zhao, Bin Wang, Yuesheng Wang, X. Sun (2018)
Graphene Oxide‐Template Controlled Cuboid‐Shaped High‐Capacity VS4 Nanoparticles as Anode for Sodium‐Ion BatteriesAdvanced Functional Materials, 28
P. Hu, Mengyu Yan, Ting Zhu, Xuanpeng Wang, Xiujuan Wei, Jiantao Li, Liang Zhou, Zhaohuai Li, Lineng Chen, L. Mai (2017)
Zn/V2O5 Aqueous Hybrid-Ion Battery with High Voltage Platform and Long Cycle Life.ACS applied materials & interfaces, 9 49
Jianhang Huang, Zhuo Wang, Mengyan Hou, Xiaoli Dong, Yao Liu, Yonggang Wang, Yongyao Xia (2018)
Polyaniline-intercalated manganese dioxide nanolayers as a high-performance cathode material for an aqueous zinc-ion batteryNature Communications, 9
A. Arasi, J. Jeyakumari, B. Sundaresan, V. Dhanalakshmi, R. Anbarasan (2009)
The structural properties of poly(aniline)--analysis via FTIR spectroscopy.Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 74 5
Dongliang Chao, C. Zhu, Ming Song, P. Liang, Xiao Zhang, N. Tiep, Haofei Zhao, John Wang, Rongming Wang, Hua Zhang, H. Fan (2018)
A High‐Rate and Stable Quasi‐Solid‐State Zinc‐Ion Battery with Novel 2D Layered Zinc Orthovanadate ArrayAdvanced Materials, 30
Kawther Mabrouk, T. Kauffmann, Hassen Aroui, Marc Fontana (2013)
Raman study of cation effect on sulfate vibration modes in solid state and in aqueous solutionsJournal of Raman Spectroscopy, 44
Yan Huang, Jie Liu, Jiaqi Wang, Mengmeng Hu, Funian Mo, Guo-jin Liang, C. Zhi (2018)
An Intrinsically Self-Healing NiCo||Zn Rechargeable Battery with a Self-Healable Ferric-Ion-Crosslinking Sodium Polyacrylate Hydrogel Electrolyte.Angewandte Chemie, 57 31
P. He, Guobin Zhang, Xiaobin Liao, Mengyu Yan, Xu Xu, Qinyou An, Jun Liu, L. Mai (2018)
Sodium Ion Stabilized Vanadium Oxide Nanowire Cathode for High‐Performance Zinc‐Ion BatteriesAdvanced Energy Materials, 8
Shuo Huang, Fang Wan, S. Bi, Jiacai Zhu, Zhiqiang Niu, Jun Chen (2019)
A Self-Healing Integrated All-in-One Zinc-Ion Battery.Angewandte Chemie, 58 13
Chunrui Wu, D. DeGroot, H. Marcy, J. Schindler, C. Kannewurf, Y.-J. Liu, W. Hirpo, M. Kanatzidis (1996)
Redox Intercalative Polymerization of Aniline in V2O5 Xerogel. The Postintercalative Intralamellar Polymer Growth in Polyaniline/Metal Oxide Nanocomposites Is Facilitated by Molecular OxygenChemistry of Materials, 8
E. Pomerantseva, Y. Gogotsi (2017)
Two-dimensional heterostructures for energy storageNature Energy, 2
Khadijeh Ghanbari, M. Mousavi, M. Shamsipur, H. Karami (2007)
Synthesis of polyaniline/graphite composite as a cathode of Zn-polyaniline rechargeable batteryJournal of Power Sources, 170
Balaji Sambandam, Vaiyapuri Soundharrajan, Sungjin Kim, M. Alfaruqi, Jeonggeun Jo, Seokhun Kim, V. Mathew, Yang‐Kook Sun, Jaekook Kim (2018)
K2V6O16·2.7H2O nanorod cathode: an advanced intercalation system for high energy aqueous rechargeable Zn-ion batteriesJournal of Materials Chemistry, 6
Ning Zhang, Mingrui Jia, Yang Dong, Yuanyuan Wang, Jianzhong Xu, Yong-chang Liu, Lifang Jiao, F. Cheng (2019)
Hydrated Layered Vanadium Oxide as a Highly Reversible Cathode for Rechargeable Aqueous Zinc BatteriesAdvanced Functional Materials, 29
P. Xiong, Bing Sun, Nobuyuki Sakai, R. Ma, T. Sasaki, Shijian Wang, Jinqiang Zhang, Guoxiu Wang (2019)
2D Superlattices for Efficient Energy Storage and ConversionAdvanced Materials, 32
Chuan Xia, Jing Guo, Peng Li, Xi-xiang Zhang, H. Alshareef (2018)
Highly Stable Aqueous Zinc-Ion Storage Using a Layered Calcium Vanadium Oxide Bronze Cathode.Angewandte Chemie, 57 15
P. He, Mengyu Yan, Guobin Zhang, Ruimin Sun, Lineng Chen, Qinyou An, L. Mai (2017)
Layered VS2 Nanosheet‐Based Aqueous Zn Ion Battery CathodeAdvanced Energy Materials, 7
Wei Li, Kangli Wang, Shijie Cheng, Kai Jiang (2018)
A long-life aqueous Zn-ion battery based on Na3V2(PO4)2F3 cathodeEnergy Storage Materials
J. Tokarský, M. Maixner, P. Peikertová, L. Kulhánková, J. Burda (2014)
The IR and Raman spectra of polyaniline adsorbed on the glass surface; comparison of experimental, empirical force field, and quantum chemical resultsEuropean Polymer Journal, 57
V. Augustyn, J. Come, Michael Lowe, J. Kim, P. Taberna, S. Tolbert, H. Abruña, P. Simon, B. Dunn (2013)
High-rate electrochemical energy storage through Li+ intercalation pseudocapacitance.Nature materials, 12 6
Fei Wang, E. Hu, Wei Sun, T. Gao, Xiao Ji, Xiulin Fan, Fudong Han, Xiao‐Qing Yang, K. Xu, Chunsheng Wang (2018)
A rechargeable aqueous Zn2+-battery with high power density and a long cycle-lifeEnergy and Environmental Science, 11
Hua-Yu Shi, Yinjian Ye, Kuan-Kai Liu, Yu Song, Xiaoqi Sun (2018)
A Long-Cycle-Life Self-Doped Polyaniline Cathode for Rechargeable Aqueous Zinc Batteries.Angewandte Chemie, 57 50
Guolong Li, Ze Yang, Yan Jiang, C. Jin, Wei Huang, Xuli Ding, Yunhui Huang (2016)
Towards polyvalent ion batteries: A zinc-ion battery based on NASICON structured Na3V2(PO4)3Nano Energy, 25
Yongqiang Yang, Yan Tang, Guozhao Fang, Lutong Shan, Jiasheng Guo, Wenyu Zhang, Chao Wang, Liangbing Wang, Jiang Zhou, S. Liang (2018)
Li+ intercalated V2O5·nH2O with enlarged layer spacing and fast ion diffusion as an aqueous zinc-ion battery cathodeEnergy and Environmental Science, 11
Mengyu Yan, P. He, Ying Chen, Shanyu Wang, Qiulong Wei, Kangning Zhao, Xu Xu, Qinyou An, Yi Shuang, Yuyan Shao, K. Mueller, L. Mai, Jun Liu, Jihui Yang (2018)
Water‐Lubricated Intercalation in V2O5·nH2O for High‐Capacity and High‐Rate Aqueous Rechargeable Zinc BatteriesAdvanced Materials, 30
S. Kundu, B. Satpati, T. Kar, S. Pradhan (2017)
Microstructure characterization of hydrothermally synthesized PANI/V2O5·nH2O heterojunction photocatalyst for visible light induced photodegradation of organic pollutants and non-absorbing colorless molecules.Journal of hazardous materials, 339
Dipan Kundu, Brian Adams, V. Duffort, S. Vajargah, L. Nazar (2016)
A high-capacity and long-life aqueous rechargeable zinc battery using a metal oxide intercalation cathodeNature Energy, 1
M. Kanatzidis, Chunrui Wu, H. Marcy, C. Kannewurf (1989)
Conductive polymer bronzes. Intercalated polyaniline in V2O5 xerogelsJournal of the American Chemical Society, 111
M. Alfaruqi, V. Mathew, Jinju Song, Sungjin Kim, S. Islam, Duong Pham, Jeonggeun Jo, Seokhun Kim, Joseph Baboo, Zhiliang Xiu, Kug‐Seung Lee, Yang‐Kook Sun, Jaekook Kim (2017)
Electrochemical Zinc Intercalation in Lithium Vanadium Oxide: A High-Capacity Zinc-Ion Battery CathodeChemistry of Materials, 29
C. Guo, K. Sun, Jianyong Ouyang, Xianmao Lu (2015)
Layered V2O5/PEDOT Nanowires and Ultrathin Nanobelts Fabricated with a Silk Reelinglike ProcessChemistry of Materials, 27
Aqueous zinc‐ion batteries (ZIBs) have triggered a great deal of scientific research and become a promising alternative for large‐scale energy storage applications, owing to the unique merits of high volumetric energy density, abundance of zinc resources, eco‐friendliness, and safety. The pace of progress of ZIB development, however, is hindered by their poor reversibility and sluggish kinetics, derived from the dissolution of active materials in aqueous electrolytes and the strong electrostatic interactions between Zn2+ and the cathode lattice. Herein, a vanadium oxide (V2O5‐x)/polyaniline (PANI‐V) superlattice structure is demonstrated as a model of superlattice structural engineering to overcome these weaknesses. In this superlattice, the PANI layer not only plays the role of a spacer to expand the V2O5‐x interlayer spacing but also serves as a conductive capacity contributor. Moreover, the PANI layer servers as structural stabilizer to restrain the dissolution of V2O5‐x active materials in aqueous electrolytes. In addition, it introduces an interface effect to modulate the charge distribution of the V2O5‐x monolayer, promoting Zn‐ion diffusion into the structure. Correspondingly, weakening the electrostatic interactions and supressing the active materials dissolution synergistically boosts the electrochemical performance for Zn‐ion storage. This work paves the way for the development/improvement of cathodes for aqueous zinc‐ion batteries.
Advanced Energy Materials – Wiley
Published: Dec 1, 2020
Keywords: ; ; ; ;
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