The capturing of ionized oxygen in sodium vanadium oxide nanorods cathodes under operando conditions
The control of voltage window has been considered as a universal strategy in improving the cycling stability of cathode materials,which is supposed and explained by avoiding side reactions.To address the conjecture,the detailed structure evolution of Na0.76V6O15 nanorods are investigated with different electrochemical reaction voltage windows.High time resolution in situ X-ray diffraction,ex situ X-ray photoelectron spectroscopy,ex situ Raman spectroscopy and transmission electron microscopy demonstrate the amorphization of Na0.76V6O15 nanorods and formation of ionized oxygen in nanorods,which leading to the increased polarization voltage and fast capacity fading.The amorphization and diffusion of ionized oxygen in nanorods is controlled by optimizing the voltage window,resulting in the greatly increase of capacity retention from 26%to 80%.It is demonstrated that by controlling the voltage window and corresponding ionized oxygen diffusion can mitigate the fast capacity fading to achieve long life lithium ion battery.
sodium vanadium oxide operando voltage window cathode nanorods
Mengyu Yan Luzi Zhao Kangning Zhao Qiulong Wei Qinyou An Guobin Zhang Xiujuan Wei Wenhao Ren Liqiang Mai
State Key Laboratory of Advanced Technology for Materials Synthesis and Processing,Wuhan University of Technology,Hubei,Wuhan 430070,China
国内会议
上海
英文
1-17
2016-11-04(万方平台首次上网日期,不代表论文的发表时间)