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Enhancing visible-light transmittance while reducing phase transition temperature of VO2 by Hf–W co-doping

Xinru Wang, Lufeng Chen, Hao Lu, Wenyu Fang, Hao Li, Weiling Yin, Mingkai Li, Yinmei Lu, Pai Li, Yunbin He

2021Applied Physics Letters34 citationsDOI

Abstract

In order to enhance the visible-light transmittance while reducing the insulator–metal transition (IMT) temperature, Hf–W co-doping is designed for modification of VO2. We grow high-quality HfxWyV1−x−yO2 (HfWVO2) alloy films on c-plane sapphire substrates by pulsed laser deposition, and test structural, electrical, and optical properties of the films by various techniques. The Hf–W co-doped VO2 films exhibit outstanding thermochromic performances with a high luminous transmittance up to 41.1%, a fairly good near-infrared modulation capacity of 13.1%, and a low phase transition temperature of 38.9 °C. The enhanced luminous transmittance along with reduced IMT temperature in HfWVO2 is attributed to the co-doping synergetic effect of Hf and W, which effectively improves the optical bandgap and donates extra electrons into the system, respectively, while largely retaining the near-infrared modulation capacity of VO2. Our work provides an effective strategy in tailoring VO2 toward practical smart-coating applications by Hf–W co-doping.

Topics & Concepts

Materials scienceTransmittanceDopingOptoelectronicsSapphireVisible spectrumBand gapInfraredPulsed laser depositionOpticsLaserThin filmNanotechnologyPhysicsTransition Metal Oxide NanomaterialsGa2O3 and related materialsZnO doping and properties