Rejuvenation of Electrochromic Devices

Wenjie Li; Xiang Zhang; Dukang Yan; Lebin Wang; Wenhai Sun; Zitong Li; Jianbo Deng; Jiupeng Zhao; Yao Li

doi:10.1002/smtd.202300850

Rejuvenation of Electrochromic Devices

Wenjie Li^*
, Xiang Zhang^*
, Dukang Yan
, Lebin Wang
, Wenhai Sun
, Zitong Li
, Jianbo Deng
, Jiupeng Zhao^*
, Yao Li^*

^*Corresponding author for this work

School of Astronautics

Heilongjiang University of Science and Technology
Harbin Institute of Technology
School of Chemistry and Chemical Engineering, Harbin Institute of Technology
Sun Yat-Sen University

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Electrochromic devices (ECDs) are a hot pot due to their significant energy-saving effect in green buildings. However, the ECDs suffer from degradation induced by ion trapping during cycling, which restricts their further development. Here, it is demonstrated that the electrochromic performance of the degraded ECDs can be rejuvenated by heat treatment method The release mechanism of trapped ions in films is simulated and validated using three types of ECDs. The semi-solid-state ECD evinces a state of near-failure at low temperatures can regain its initial performance by heating. All-solid-state ECDs, including amorphous WO₃ (a-WO₃ ECD) and crystalline WO₃ (c-WO₃ ECD) as the electrochromic layer, can also release the trapped ions and regain the performance (97.3% and 95.5% of initial optical modulation) by annealing, regardless of the way of degradation. The research has extended the lifespan of multiple ECDs, providing significant practical value and promoting sustainable, and eco-friendly development.

Original language	English
Article number	2300850
Journal	Small Methods
Volume	8
Issue number	1
DOIs	https://doi.org/10.1002/smtd.202300850
State	Published - 19 Jan 2024

Keywords

all-solid-state
electrochromism
performance recovery
tungsten oxide

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title = "Rejuvenation of Electrochromic Devices",

abstract = "Electrochromic devices (ECDs) are a hot pot due to their significant energy-saving effect in green buildings. However, the ECDs suffer from degradation induced by ion trapping during cycling, which restricts their further development. Here, it is demonstrated that the electrochromic performance of the degraded ECDs can be rejuvenated by heat treatment method The release mechanism of trapped ions in films is simulated and validated using three types of ECDs. The semi-solid-state ECD evinces a state of near-failure at low temperatures can regain its initial performance by heating. All-solid-state ECDs, including amorphous WO3 (a-WO3 ECD) and crystalline WO3 (c-WO3 ECD) as the electrochromic layer, can also release the trapped ions and regain the performance (97.3\% and 95.5\% of initial optical modulation) by annealing, regardless of the way of degradation. The research has extended the lifespan of multiple ECDs, providing significant practical value and promoting sustainable, and eco-friendly development.",

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author = "Wenjie Li and Xiang Zhang and Dukang Yan and Lebin Wang and Wenhai Sun and Zitong Li and Jianbo Deng and Jiupeng Zhao and Yao Li",

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T1 - Rejuvenation of Electrochromic Devices

AU - Li, Wenjie

AU - Zhang, Xiang

AU - Yan, Dukang

AU - Wang, Lebin

AU - Sun, Wenhai

AU - Li, Zitong

AU - Deng, Jianbo

AU - Zhao, Jiupeng

AU - Li, Yao

PY - 2024/1/19

Y1 - 2024/1/19

N2 - Electrochromic devices (ECDs) are a hot pot due to their significant energy-saving effect in green buildings. However, the ECDs suffer from degradation induced by ion trapping during cycling, which restricts their further development. Here, it is demonstrated that the electrochromic performance of the degraded ECDs can be rejuvenated by heat treatment method The release mechanism of trapped ions in films is simulated and validated using three types of ECDs. The semi-solid-state ECD evinces a state of near-failure at low temperatures can regain its initial performance by heating. All-solid-state ECDs, including amorphous WO3 (a-WO3 ECD) and crystalline WO3 (c-WO3 ECD) as the electrochromic layer, can also release the trapped ions and regain the performance (97.3% and 95.5% of initial optical modulation) by annealing, regardless of the way of degradation. The research has extended the lifespan of multiple ECDs, providing significant practical value and promoting sustainable, and eco-friendly development.

AB - Electrochromic devices (ECDs) are a hot pot due to their significant energy-saving effect in green buildings. However, the ECDs suffer from degradation induced by ion trapping during cycling, which restricts their further development. Here, it is demonstrated that the electrochromic performance of the degraded ECDs can be rejuvenated by heat treatment method The release mechanism of trapped ions in films is simulated and validated using three types of ECDs. The semi-solid-state ECD evinces a state of near-failure at low temperatures can regain its initial performance by heating. All-solid-state ECDs, including amorphous WO3 (a-WO3 ECD) and crystalline WO3 (c-WO3 ECD) as the electrochromic layer, can also release the trapped ions and regain the performance (97.3% and 95.5% of initial optical modulation) by annealing, regardless of the way of degradation. The research has extended the lifespan of multiple ECDs, providing significant practical value and promoting sustainable, and eco-friendly development.

KW - all-solid-state

KW - electrochromism

KW - performance recovery

KW - tungsten oxide

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DO - 10.1002/smtd.202300850

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SN - 2366-9608

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JO - Small Methods

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Rejuvenation of Electrochromic Devices

Abstract

Keywords

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