电致变色
材料科学
三氧化钨
电致变色装置
薄膜
纳米技术
光电子学
溅射
堆栈(抽象数据类型)
调制(音乐)
溅射沉积
钨
作者
Fuyueyang Tan,Jinhui Zhou,Zhengjie Guo,Chi Zhang,Shaoyi Yu,Yikun Yang,Yixian Xie,Xi Cao,Xinyi Wu,Xiaofei Gao,Zaijin Li,Yi Qu,Lin Li,Fuyueyang Tan,Jinhui Zhou,Zhengjie Guo,Chi Zhang,Shaoyi Yu,Yikun Yang,Yixian Xie
出处
期刊:Coatings
[Multidisciplinary Digital Publishing Institute]
日期:2025-11-10
卷期号:15 (11): 1310-1310
标识
DOI:10.3390/coatings15111310
摘要
With continuous breakthroughs in electrochromic technology, tungsten trioxide (WO3) thin films, as a core material in this field, are rapidly expanding their applications in smart windows, anti-glare automotive rearview mirrors, and adaptive optical lenses. Owing to its excellent electrochromic properties—including high optical modulation, short switching times, and high coloration efficiency—WO3 has become a research focus in the field of electrochromic devices. This review takes WO3 thin films as the research subject. It begins by introducing the crystal structure of WO3 and the ion/electron co-intercalation-based electrochromic mechanism and explains two key performance parameters for evaluating electrochromic properties: optical modulation amplitude and coloration efficiency. Subsequently, it provides a detailed review of recent advances in the preparation of WO3 thin films via physical methods (including sputtering deposition, evaporative deposition, and pulsed laser deposition) and chemical methods (including hydrothermal, sol–gel, and electrodeposition methods). A systematic comparison is made of the microstructure and electrochromic performance (optical modulation amplitude and coloration efficiency) of films prepared by different methods, and the interaction between WO3 film morphology and device structure is analyzed. Finally, the advantages and challenges of physical and chemical methods in tuning film properties are summarized, and the outlook of their application prospects in high-performance electrochromic devices is given. This review aims to provide guidance for the selection and process optimization of WO3 thin films with enhanced performance for applications such as smart windows, anti-glare rearview mirrors, and adaptive optical systems.
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