电致变色
材料科学
离子
光电子学
离子运输机
电化学
钒
电致变色装置
氧化钒
氧化物
纳米技术
锂(药物)
化学物理
化学工程
电极
物理化学
有机化学
化学
冶金
工程类
医学
内分泌学
作者
Xiaodan Guo,Sensen Jia,Neng Li,Guofa Cai
标识
DOI:10.1002/adom.202400459
摘要
Abstract Unveiling the ion transport mechanism to design and explore efficient and stable ion transport pathways for high‐performance transition metal oxide (TMO)−based electrochromic materials is highly desired yet challenging. Herein, this study has demonstrated that the interlayer spacing of layered vanadium penoxide (V 2 O 5 ) films can be tuned by inserting different amounts of lithium−ion (Li + ) within host V 2 O 5 material, as well as adjusting ion transport behavior and electrochromic performance. These results show that V 2 O 5 with a small amount of ion insertion delivers a stable ion transport process and electrochromic properties. Increasing the amount of inserted Li + will enlarge the interlayer spacing, which provides abundant active sites and efficient ion transport channels, and thus reversible and rich color variation of yellow−green−blue−olive green−orange is realized. Nevertheless, an excess of ion insertion results in the crystal structure collapse and cyclic stability degradation. These findings give a rationale for the evolution of electrochromic properties during different electrochemical reaction stages. This work provides considerable insight into the ion transport behavior within the layered V 2 O 5 films, which gives fundamental theoretical guidance for developing and designing superior layered TMO electrochromic materials.
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