Multicolor Tunable Electrochromic Materials Based on the Burstein–Moss Effect

Author:

Zhou Xia1,Huang Enhui1,Zhang Rui1,Xiang Hui2,Zhong Wenying1,Xu Bo1

Affiliation:

1. Key Laboratory of Biomedical Functional Materials, School of Science, China Pharmaceutical University, Nanjing 211198, China

2. School of Mathematics and Physics, Hubei Polytechnic University, Huangshi 435003, China

Abstract

Inorganic electrochromic (EC) materials, which can reversibly switch their optical properties by current or potential, are at the forefront of commercialization of displays and smart windows. However, most inorganic EC materials have challenges in achieving multicolor tunability. Here, we propose that the Burstein–Moss (BM) effect, which could widen the optical gap by carrier density, could be a potential mechanism to realize the multicolor tunable EC phenomenon. Degenerated semiconductors with suitable fundament band gaps and effective carrier masses could be potential candidates for multicolor tunable EC materials based on the BM effect. We select bulk Y2CF2 as an example to illustrate multicolor tunability based on the BM effect. In addition to multicolor tunability, the BM effect also could endow EC devices with the ability to selectively modulate the absorption for near infrared and visible light, but with a simpler device structure. Thus, we believe that this mechanism could be applied to design novel EC smart windows with unprecedented functions.

Funder

“Double First-Class” University project

Publisher

MDPI AG

Subject

General Materials Science,General Chemical Engineering

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