电致变色
材料科学
光电子学
阴极
单斜晶系
电极
格子(音乐)
光学
离子
四方晶系
电子
电致变色装置
带隙
桥接(联网)
二极管
无定形固体
极化子
作者
Sikang Xue,Jizhe Cui,Chuchu Zhou,Min Shen,Xiaocong Liang,Mengdi Wang,Quanpan Zhao,Y. Ye,Kun Xu,Yanan Zhao,Rongji Jiao,Rui‐Tao Wen,Can Yang,Zhiyang Yu,Rong Yu,Wandong Xing
标识
DOI:10.1038/s41467-025-68046-z
摘要
The optical properties of electrochromic windows can be modulated by embedding electrons and ions simultaneously to realize energy-saving functions. However, the microscopic electrochromic mechanism in cathode materials remains controversial. Herein, we have discovered that the single-crystal WO3 nanosheets exhibit thickness-dependent electrochromic characteristics. The multislice electron ptychography experiments revealed that the colour centers in electrochromic WO3 are associated with lattice distortions, and the density of the colour centers decreases from surface to bulk. Moreover, the heterogeneous distribution of polarons induces a phase transition from monoclinic to tetragonal and cubic structures, which in turn causes the band gap of the WO3 nanosheets to follow a volcano-type trend. This phenomenon elucidates the colour shift of the electrode from yellow to blue or black as the thickness of the nanosheets decreases. By visualizing the actual colour centers of electrochromic materials, our findings provide an optimal framework for the development of high-performance electrochromic devices. Multislice electron ptychography reveals that gradient-distributed ions induce progressive lattice distortions from bulk to surface, driving monoclinic γ-WO3 electrochromic materials to transform into tetragonal and cubic phases and forming the gradient-distributed colour centers.
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