多层电致变色系统元件的沉积及光学性能研究

Janusz Rybak, Konstanty W. Marszalek
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引用次数: 0

摘要

电致变色材料是在外加电位的影响下改变其光学性质的材料。它们可以基于不同类型的电致变色,范围从金属氧化物(例如,WO3, MO3, TiO或NiO)到有机材料(例如SmPc2, EuPc2或YbPc2)。电致变色材料的选择决定了后续组件的选择,例如电解质(也称为快速离子导体)和离子存储层。本文介绍了电致变色系统各功能层的沉积方法,以及沉积工艺参数。介绍了高真空沉积装置的结构。本文还介绍了沉积层的结构和光学测量结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deposition and optical properties investigation of components for multilayer electrochromic system
Electrochromic materials are materials that change their optical properties under the influence of an applied electrical potential. They can be based on different types of electrochromes, ranging from metal oxides (e.g., WO3, MO3, TiO, or NiO) to organic materials (such as SmPc2, EuPc2, or YbPc2). The choice of electrochromic material determines the subsequent choice of components, such as the electrolyte, also called the fast ion conductor, and the ion storage layer. In this paper, the authors present methods for the deposition of the individual functional layers of the electrochromic system, together with the parameters of the deposition processes. The construction of the high-vacuum apparatus on which the layers were deposited is presented. The results of structural and optical measurements of the deposited layers are also presented.
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