Authors
Jianwei Li, Kit McColl, Xuekun Lu, Sanjayan Sathasivam, Haobo Dong, Liqun Kang, Zhuangnan Li, Siyu Zhao, Andreas G Kafizas, Ryan Wang, Dan JL Brett, Paul R Shearing, Furio Corà, Guanjie He, Claire J Carmalt, Ivan P Parkin
Publication date
2020/4
Journal
Advanced Energy Materials
Volume
10
Issue
15
Pages
2000058
Description
Cost‐effective and environment‐friendly aqueous zinc‐ion batteries (AZIBs) exhibit tremendous potential for application in grid‐scale energy storage systems but are limited by suitable cathode materials. Hydrated vanadium bronzes have gained significant attention for AZIBs and can be produced with a range of different pre‐intercalated ions, allowing their properties to be optimized. However, gaining a detailed understanding of the energy storage mechanisms within these cathode materials remains a great challenge due to their complex crystallographic frameworks, limiting rational design from the perspective of enhanced Zn2+ diffusion over multiple length scales. Herein, a new class of hydrated porous δ‐Ni0.25V2O5.nH2O nanoribbons for use as an AZIB cathode is reported. The cathode delivers reversibility showing 402 mAh g−1 at 0.2 A g−1 and a capacity retention of 98% over 1200 cycles at 5 A g−1. A …
Scholar articles
J Li, K McColl, X Lu, S Sathasivam, H Dong, L Kang… - Advanced Energy Materials, 2020