材料科学
电致变色
光电子学
电极
洋红
导线
耐久性
纳米技术
可扩展性
窗口(计算)
导电体
沉积(地质)
工作(物理)
可持续能源
墨水池
电阻式触摸屏
复合材料
作者
Won‐June Lee,Palak Mehra,Jonathan R. Thurston,Yanpei Tian,Xiaojie Liu,Sanket Samal,Liyan You,Inho Song,Xiulin Ruan,Michael F. Toney,Jianguo Mei
标识
DOI:10.1038/s41467-025-67271-w
摘要
Electrochromic (EC) windows face trade-offs in cost, switching speed, color neutrality, and durability. We present solution-processed n-doped poly(benzodifurandione) (n-PBDF) as a robust organic conductor for black EC windows overcoming these limitations. Utilizing an engineered solvent ink and ultrasonic spray coating, we achieve uniform large-area n-PBDF deposition under ambient conditions without additives. n-PBDF EC electrodes show unprecedented weathering durability (maintaining performance under simultaneous exposure to light (including UV), heat, and humidity for >768 h), addressing a key barrier for organic EC materials. The electrodes exhibit deep black coloration with color neutrality, rapid switching (<2 s), and remarkable cycling stability (>20,000 cycles). Large-area EC devices demonstrate uniform switching performance, confirming scalable fabrication. Building energy simulations of the EC window reveal significant HVAC savings potential across diverse transitional climates. This work establishes n-PBDF as a scalable, high-performance alternative to conventional inorganic EC systems, advancing the viability of solution-processable smart windows for sustainable architecture. Electrochromic materials are widely explored in energy-saving smart windows, yet combining fast switching, neutral black coloration, and robust long-term durability remains challenging. Here the authors report a solution processed n-doped poly(benzodifurandione) affording an electrochromic black window that overcomes these limitations.
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