Litcius/Paper detail

A highly visible-transparent thermochromic smart window with broadband infrared modulation for all-season energy savings

Yi Jiang, Yunlong Wang, Deshuo Kong, Zipeng Chen, Zhengwei Yang, Ningning Cao, Haowen Chi, Shining Zhu, Qiuhong Zhang, Jia Zhu, Bin Zhu

2024National Science Review21 citationsDOIOpen Access PDF

Abstract

ABSTRACT Thermochromic smart windows effectively reduce the energy consumption for buildings through passive light modulation including the transmission of visible (TVis) and near-infrared (TNIR) light, and the emissivity of mid-infrared (εMIR) light in response to ambient temperature change. However, thermochromic windows that maintain high TVis while modulating TNIR and εMIR simultaneously are highly desirable but still challenging. Here, we develop a thermochromic smart window based on a two-way shape memory polymer to enable reversible transformation and achieve TNIR modulation of 44.0% and εMIR modulation of 76.5% while maintaining high TVis (>50%). Compared to traditional windows based on silica glass, this device shows 4°C lower temperature in summer daytime, 2°C higher in winter daytime, and 1°C higher in spring nighttime. It is expected that our device can achieve greater annual energy savings in comparison with commercial glass anywhere in the world and promote the progress of thermochromic windows for energy-efficient buildings.

Topics & Concepts

BroadbandThermochromismInfraredModulation (music)Window (computing)Materials scienceOpticsOptoelectronicsEnergy (signal processing)Computer sciencePhysicsAcousticsOperating systemQuantum mechanicsCondensed matter physicsTransition Metal Oxide NanomaterialsThermal Radiation and Cooling TechnologiesOptical Wireless Communication Technologies