Phase transitions in non-hydride switchable mirror thin films

Date Published
07/2008
Publication Type
Journal Article
Author
DOI
10.1080/01411590801911406
Abstract

Switchable mirrors modulate incident light by changes in the reflectivity of thin films that are converted by chemical reactions from a metallic reflective state to a semiconducting transparent state. The reactions may be effected by exposure to a gas, by treatment with a liquid reagent, or by electrochemical means. The changes in optical properties coincide with phase transformations. In the examples reviewed here, the reactions are accompanied by substantial volume changes and atomic rearrangement. Bismuth, antimony, and antimony alloy films are switched by electrochemical lithiation. Copper films are electrochemically oxidized to Cu(I) and Cu(II) oxides, which are transparent and opaque, respectively. Morphological changes in all films during cycling lead to degradation in performance without loss of active material. Strategies to improve the cycling stability of these systems are discussed.

Journal
Phase Transitions
Volume
81
Year of Publication
2008
Issue
7-8
Pagination
807 - 813
ISSN Number
0141-1594
Short Title
Phase Transitions
Keywords
Organizations
Research Areas
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