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3D Printed Smart Windows for Adaptive Solar Modulations

Chengzhi Zhou, Dan Li, Yutong Tan, Yujie Ke, Shancheng Wang, Yang Zhou, Guowei Liu, Shaofan Wu, Jinqing Peng, Anran Li, Shuzhou Li, Siew Hua Chan, Shlomo Magdassi, Yi Long

2020Advanced Optical Materials50 citationsDOI

Abstract

Abstract Vanadium dioxide (VO 2 ) based thermochromic smart window is considered as the most promising approach for economizing building energy consumption. However, the high phase transition temperature (τ c ), low luminous transmission ( T lum ), and solar modulation (Δ T sol ) impose an invertible challenge for commercialization. Currently, smart window research surprisingly assumes that the sunlight radiates in one direction which is obviously not valid as most regions receive solar radiation at various angles in different seasons. For the first time, solar elevation angle is considered and 3D printing technology is employed to fabricate tilted microstructures for modulating solar transmission dynamically. To maximize energy‐saving performance, the architecture of the structures (tilt, thickness, spacing, and width) and tungsten (W) doped VO 2 can be custom‐designed according to the solar elevation angle variation at the midday between seasons and tackle the issue of compromised T lum and Δ T sol with W‐doping. The energy consumption simulations in different cities prove the efficiency of such dynamic modulation. This first attempt to adaptively regulate the solar modulation by considering the solar elevation angle together with one of the best reported thermochromic properties (τ c = 40 °C, T lum(average) = 40.8%, Δ T sol = 23.3%) may open a new era of real‐world‐scenario smart window research.

Topics & Concepts

Materials scienceOpticsElectrochromismEngineering physicsSolar energyOptoelectronicsElectrical engineeringPhysicsEngineeringElectrodeQuantum mechanicsTransition Metal Oxide NanomaterialsUrban Heat Island MitigationBuilding Energy and Comfort Optimization