材料科学
涂层
光热治疗
热致变色
复合材料
光电子学
温度测量
质量(理念)
基质(水族馆)
光学
作者
Shize Sun,Xiaolin Liu,Z X Wang,Changjun Yang,Jichen Chen,Zehui Zhao,Junbo Liu,Liwen Zhang,Huawei Chen
出处
期刊:Research
[American Association for the Advancement of Science]
日期:2026-01-01
卷期号:9: 1285-1285
标识
DOI:10.34133/research.1285
摘要
Photothermal materials with high conversion efficiency offer a promising approach for preventing ice accretion on infrastructures like wind turbines. However, the conflict between weak-light inefficiency in winter and overheating hazards in summer remains a challenge for composites. Herein, we develop a robust thermochromic photothermal icephobic coating with switchable solar-driven anti-/deicing and anti-overheating modes for all-season demands. During freezing winter, a 0.05 W/cm 2 weak solar irradiation can raise the black coating (solar absorbance >97%) temperature from −10 to 7.6 °C and facilitate rapid ice shedding from rotating rotor. During summer, the thermochromic coating turns white with strong reflection and limits coating temperature below 51 °C, inhibiting composites oxidation above 60 °C. Strikingly, the interpenetrating elasticity and ultraslippage endow the coating with exceptional ice detachment properties, exhibiting an ultralow ice adhesion strength (<31 kPa) and sliding angle (<8.3°), which are maintained even after 200 Taber abrasion cycles. This study successfully addresses the critical challenge of regulating the all-season temperature of photothermal coatings, pioneering a new pathway for designing intelligent anti-icing coatings for wind turbines and low-altitude rotorcraft.
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