Rejuvenation of Electrochromic Devices

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

doi:10.1002/smtd.202300850

Small Methods

2023

DOI: 10.1002/smtd.202300850

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Rejuvenation of Electrochromic Devices

Wenjie Li,

Xiang Zhang,

Dukang Yan

et al.

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‐fail… Show more

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2024

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Cited by 4 publications

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Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

Hajimazdarani,

Eshraghi,

Ghasali

et al. 2024

Ceramics International

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Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

Hajimazdarani,

Eshraghi,

Ghasali

et al. 2024

Ceramics International

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All-Climate Solid-State Flexible Electrochromic Devices Enabled by Layered Hydrated Vanadate/MXene Composite and Hydrogel Electrolyte

Cao,

Hu,

Wang

et al. 2024

Ind. Eng. Chem. Res.

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Hydrated vanadate possesses a large layer distance and rich vanadium redox center superior for flexible electrochromic devices (FECDs). However, the low mechanical strength and high interfacial impedance caused by the low processing temperature pose key challenges. This study presents the successful development of an all-climate solid-state FECD using a hydrate vanadate/MXene composite and hydrogel electrolyte. The integration of high-crystallinity, layer-structured V 2 O 5 •1.6H 2 O with two-dimensional MXene nanoflakes facilitates fast ion transfer, enabling excellent electrochromic properties with fast responses (Coloring time = 5.8 s; Bleaching time = 9.8 s), large optical modulation (64.02%), coloring efficiency, and high flexibility. The hydrogel electrolyte provides strong mechanical strength and a wide operating temperature range between −10 and 55 °C. This work signifies a critical step toward the application of FECDs in smart windows, offering a promising solution for environments requiring high flexibility and climate resilience.

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Machine learning aids in detrapping of V₂O₅ electrochromic materials from ion-traps

Song,

Yuan,

Mei

2024

Phys. Scr.

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The rapid decay of electrochromic performance of V2O5limits its widespread application, which has been proven to be attributed to the presence of ion traps. detrapping operation is an effective strategy to overcome ion traps and restore the electrochromic performance of V2O5. This process frees the ions embedded in V2O5 from shallow defects, but the effect and mechanism of action are still unclear. Therefore, this study attempts to fit this issue using data-driven machine learning (ML) methods, predicting the varying performance regeneration levels of V2O5 electrochromic materials due to different electrical parameters. Six different machine learning methods were employed in the experiment, and the models were trained using five-fold cross-validation. The results showed that the Random Forest (RF) method had the highest coefficient of determination score (R2=0.9) and lower root mean square error (MSE=0.0054) for predicting material performance recovery, indicating its effectiveness in predicting the degree of material performance recovery. Furthermore, data-driven sensitivity analysis indicates that the extracted charge amount during constant detrapping procedure is a crucial factor determining the restoration effect. These results can serve as a reference for research in the field of electrochromism.

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Rejuvenation of Electrochromic Devices

Cited by 4 publications

References 36 publications

Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

All-Climate Solid-State Flexible Electrochromic Devices Enabled by Layered Hydrated Vanadate/MXene Composite and Hydrogel Electrolyte

Machine learning aids in detrapping of V₂O₅ electrochromic materials from ion-traps

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Rejuvenation of Electrochromic Devices

Cited by 4 publications

References 36 publications

Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

Cost-effective deposition of WO3 films by AACVD method for electrochromic applications: Influence of precursor concentration

All-Climate Solid-State Flexible Electrochromic Devices Enabled by Layered Hydrated Vanadate/MXene Composite and Hydrogel Electrolyte

Machine learning aids in detrapping of V2O5 electrochromic materials from ion-traps

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Product

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Machine learning aids in detrapping of V₂O₅ electrochromic materials from ion-traps