Anti‐UV Passive Radiative Cooling Chiral Nematic Liquid Crystal Films for Thermal Management

Abstract

AbstractPassive radiative cooling (PRC) can spontaneously dissipate heat to outer space through atmospheric transparent windows, providing a promising path to meet sustainable development goals. However, achieving simultaneously high transparency, color‐customizable, and thermal management of PRC anti ultraviolet (anti‐UV) films remains a challenge. Herein, a simple strategy is proposed to utilize liquid crystalline polymer, with high mid‐infrared emissive, forming customizable structural color film by molecular self‐assembly and polymerization‐induced pitch gradient, which guarantees the balance of transparency in visible spectrum and sunlight reflection, rendering anti‐UV colored window for thermal management. By performing tests, temperature fall of 5.4 and 7.9 °C are demonstrated at noon with solar intensity of 717 W m−2 and night, respectively. Vivid red‐, green‐, blue‐structured colors, and colorless films are designed and implemented to suppress the solar input and control the effective visible light transmissivity considering the efficiency function of human vision. In addition, temperature rise of 11.1 °C is achieved by applying an alternating current field on the PRC film. This study provides a new perspective on the thermal management and aesthetic functionalities of smart windows and wearables.