A TOC- and deposition-free electrochromic window driven by redox flow battery

Under “green architecture” principles, electrochromic smart windows are employed to adjust optical transmittance and indoor temperature, yet their high costs limit the wide application. Here, an electrochromic window is driven by a redox flow battery (RFB), where TOC and deposition layers are no lon...

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Bibliographic Details
Published in:Chinese chemical letters 2024-12, Vol.35 (12), p.110355, Article 110355
Main Authors: Li, Jinlong, Li, Ruixin, Liu, Jiahui, Liu, Ji-Quan, Xu, Jia, Zhou, Xianglin, Zhang, Yefan, Wang, Kairui, Lei, Lin, Xie, Gang, Wang, Fengmei, Yang, Ying, Cao, Liping
Format: Article
Language:English
Subjects:
Electrochromic window
Free of TOC- and deposition layers
Indoor temperature modulation
Iron complex
Redox flow battery
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Summary:Under “green architecture” principles, electrochromic smart windows are employed to adjust optical transmittance and indoor temperature, yet their high costs limit the wide application. Here, an electrochromic window is driven by a redox flow battery (RFB), where TOC and deposition layers are no longer needed. The transmittance of the electrochromic window is modulated by the state of oxidation (SOC) of aqueous posolyte Fe(phen)3Cl2, which is coupled with BTMAP-Vi negolyte in RFB. Under optimized conditions, average CE, VE, and EE reach 93.25%, 92.61%, and 86.35% for RFB with a capacity fading rate of 1.57% per cycle. 88.66% optical modulation and 9.36 cm2/C coloration efficiency are achieved in the electrochromic process, and 72.34% optical modulation is maintained after 12000 s. Essentially, the indoor temperature declines 3 °C for posolyte with 100% SOC when compared with the control experiment using circulating water for a model house. This means minimum electricity of 0.0185 kWh is saved when using an air conditioner to cool a 100 m3 house, which corresponds to declined CO2 emission (COE) of 0.0185 kg. This work provides a novel and cost-efficient strategy for modulating indoor comfort via electrochromic windows driven by RFB. [Display omitted] Under “green architecture” principles, a TOC- and deposition-free electrochromic window driven by RFB is developed to adjust optical transmittance. Under 100% SOC of posolyte ([Fe(phen)3]3+), indoor temperature declines by 3 °C when compared with circulating water, where a minimum of 0.0185 kWh electricity is saved together with declined CO2 emission of 0.0185 kg for a 100 m3 house with glazing ratio of 0.0274.
ISSN:1001-8417
DOI:10.1016/j.cclet.2024.110355