Journal ArticleDOI
Amorphous Mixed-Valence Vanadium Oxide/Exfoliated Carbon Cloth Structure Shows a Record High Cycling Stability
TLDR
The authors demonstrate that amorphous mixed-valence vanadium oxide deposited on exfoliated carbon cloth (CC) can address the electrochemical instability and structural pulverization of vanadium oxides during charge/discharge cyclings, and suggest that tuning the V4+ /V5+ ratio ofVanadium oxide can efficiently suppress the dissolution of the active materials.Abstract:
Previous studies show that vanadium oxides suffer from severe capacity loss during cycling in the liquid electrolyte, which has hindered their applications in electrochemical energy storage. The electrochemical instability is mainly due to chemical dissolution and structural pulverization of vanadium oxides during charge/discharge cyclings. In this study the authors demonstrate that amorphous mixed-valence vanadium oxide deposited on exfoliated carbon cloth (CC) can address these two limitations simultaneously. The results suggest that tuning the V4+ /V5+ ratio of vanadium oxide can efficiently suppress the dissolution of the active materials. The oxygen-functionalized carbon shell on exfoliated CC can bind strongly with VO x via the formation of COV bonding, which retains the electrode integrity and suppresses the structural degradation of the oxide during charging/discharging. The uptake of structural water during charging and discharging processes also plays an important role in activating the electrode material. The amorphous mixed-valence vanadium oxide without any protective coating exhibits record-high cycling stability in the aqueous electrolyte with no capacitive decay in 100 000 cycles. This work provides new insights on stabilizing vanadium oxide, which is critical for the development of vanadium oxide based energy storage devices.read more
Citations
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Journal ArticleDOI
Highly Durable Na2V6O16·1.63H2O Nanowire Cathode for Aqueous Zinc-Ion Battery
Ping Hu,Ting Zhu,Xuanpeng Wang,Xiujuan Wei,Mengyu Yan,Jiantao Li,Wen Luo,Wei Yang,Wencui Zhang,Liang Zhou,Zhiqiang Zhou,Liqiang Mai +11 more
TL;DR: A single-nanowire-based zinc-ion battery is assembled, which reveals the intrinsic Zn2+ storage mechanism at nanoscale and makes Na2V6O16·1.63H2O a promising cathode for a low-cost and safe aqueous zinc-ION battery.
Journal ArticleDOI
Efficient 3D Printed Pseudocapacitive Electrodes with Ultrahigh MnO2 Loading
Bin Yao,Swetha Chandrasekaran,Jing Zhang,Wang Xiao,Fang Qian,Cheng Zhu,Eric B. Duoss,Christopher M. Spadaccini,Marcus A. Worsley,Yat Li +9 more
TL;DR: A 3D printed graphene aerogel/MnO2 electrode with MnO2 loading of 182.2 µm cm−2 achieved a record-high areal capacitance of 44.13 µm F cm−1 as discussed by the authors.
Journal ArticleDOI
Paper‐Based Electrodes for Flexible Energy Storage Devices
TL;DR: Recent advances in the synthesis of paper‐based electrodes, including paper‐supported electrodes and paper‐like electrodes are summarized and their structural features, electrochemical performances and implementation as electrodes for flexible energy storage devices including supercapacitors and batteries are highlighted and compared.
Journal ArticleDOI
Fundamentals and perspectives of electrolyte additives for aqueous zinc-ion batteries
TL;DR: In this paper, a comprehensive review of commonly used zinc-ion electrolyte additives is presented, where an in-depth and fundamental understanding on the disciplines and effects of electrolyte additive on electrolyte aspect, anode side, and cathode side has been expounded and evaluated.
Journal ArticleDOI
A Deep-Cycle Aqueous Zinc-Ion Battery Containing an Oxygen-Deficient Vanadium Oxide Cathode
Meng Liao,Jiawei Wang,Lei Ye,Hao Sun,Yunzhou Wen,Chuang Wang,Xuemei Sun,Bingjie Wang,Huisheng Peng +8 more
TL;DR: In this paper, an oxygen-deficient vanadium oxide cathode was used for a rechargeable aqueous zinc-ion battery with a specific capacity of approximately 400 mAh g-1, achieving 95 % utilization of its theoretical capacity.
References
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Journal ArticleDOI
Pseudocapacitive oxide materials for high-rate electrochemical energy storage
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Journal ArticleDOI
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Journal ArticleDOI
Developments in Nanostructured Cathode Materials for High‐Performance Lithium‐Ion Batteries
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