1. Fast and Stable Zinc Anode-Based Electrochromic Displays Enabled by Bimetallically Doped Vanadate and Aqueous Zn2+/Na+ Hybrid Electrolytes.
- Author
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Song, Zhaoyang, Wang, Bin, Zhang, Wu, Zhu, Qianqian, Elezzabi, Abdulhakem Y., Liu, Linhua, Yu, William W., and Li, Haizeng
- Subjects
ELECTROLYTES ,ELECTROCHROMIC substances ,VANADATES ,DENDRITIC crystals ,SODIUM ions ,ELECTROCHROMIC devices - Abstract
Highlights: La
3+ /Na+ bimetallically doped vanadate, designed for the first time, is promising in many electrochemical applications (e.g., batteries, electrochromics). This is the first report of electrochromic displays employing bimetallically doped vanadate. It is demonstrated for the first time that zinc dendrites and vanadate dissolution are significantly inhibited by employing an aqueous hybrid Zn2+ /Na+ electrolyte. Vanadates are a class of the most promising electrochromic materials for displays as their multicolor characteristics. However, the slow switching times and vanadate dissolution issues of recently reported vanadates significantly hinder their diverse practical applications. Herein, novel strategies are developed to design electrochemically stable vanadates having rapid switching times. We show that the interlayer spacing is greatly broadened by introducing sodium and lanthanum ions into V3 O8 interlayers, which facilitates the transportation of cations and enhances the electrochemical kinetics. In addition, a hybrid Zn2+ /Na+ electrolyte is designed to inhibit vanadate dissolution while significantly accelerating electrochemical kinetics. As a result, our electrochromic displays yield the most rapid switching times in comparison with any reported Zn-vanadate electrochromic displays. It is envisioned that stable vanadate-based electrochromic displays having video speed switching are appearing on the near horizon. [ABSTRACT FROM AUTHOR]- Published
- 2023
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