Low‐Cost and Large‐Scale Producible Biomimetic Radiative Cooling Glass with Multiband Radiative Regulation Performance

Abstract Common glass without spectral regulation effect cannot offer an energy‐saving function, and radiative cooling technology without visible transparency cannot satisfy the illumination and esthetic demands. Herein, the concept of utilizing a biomimetic beetle cuticle structure, guided by principles of Chinese Taoist philosophy, is proposed to accomplish efficient radiative regulation. Subsequently, low‐cost biomimetic radiative cooling (Bio‐RC) glass is presented, which can reduce the temperature of buildings throughout daytime by blocking near‐infrared (NIR) radiation, conveying visible light, and emitting heat within the atmospheric window. Utilizing only three layers of thin films, Bio‐RC glass achieves multi‐band spectral regulation, avoids a complicated preparation process, and has the potential for large‐scale production. Spectrometry reveals that Bio‐RC glass exhibits an effective visible light transmissivity of 80.5%, a mean NIR transmissivity of 10.3%, and an effective emissivity of 94.8% within the atmospheric window. A one‐month rooftop test demonstrates that Bio‐RC glass achieves a maximum cavity temperature reduction of 18.1 °C compared with common glass. Energy consumption analysis indicates that Bio‐RC glass can conserve approximately 23.4% of the total energy consumption per year compared with common glass. The proposed Bio‐RC glass can lower the temperature during daylight while preserving transparency and esthetics, making it suitable for application in buildings and vehicles.