Journal article

Publication year: 2017

Journal: Applied Physics Letters

Volume number: 110

Issue number: 14

ISSN: 0003-6951

eISSN: 1077-3118

DOI Link: https://doi.org/10.1063/1.4979700

Publisher: American Institute of Physics

Abstract: 
Smart windows possess the potential to contribute significantly to reducing the world-wide energy consumption in the future. The properties of the thermochromic metal oxide VO2 are closest to the material requirements set by economic considerations for the use as an active layer in thermochromic glazings. We show that the required parameters can be achieved by modifying VO2 on the atomic level, i.e., by simultaneous co-doping with Sr and W on the cation site. In particular, the transition temperature V-c can be adjusted in the range between 15 and 68 degrees C by varying W contents, whereas the incorporation of Sr mainly increases the band gap yielding a greyish color of the films. Interestingly, the simultaneous presence of W and Sr enhances both effects. The co-doping leads to values of the luminous transmittance T-lum and the solar transmittance T-sol fulfilling the requirements set by application. The variation of the solar transmittance Delta T-sol of the plain thin films on a glass substrate already is larger than 5% for all samples promising that the required value of Delta T-sol = 10% is achievable by using such thin films as part of an optically engineered multilayer system. Published by AIP Publishing.

Harvard Citation style: Dietrich, M., Kuhl, F., Polity, A. and Klar, P. (2017) Optimizing thermochromic VO₂ by co-doping with Wand Sr for smart window applications, Applied Physics Letters, 110(14), Article 141907. https://doi.org/10.1063/1.4979700

APA Citation style: Dietrich, M., Kuhl, F., Polity, A., & Klar, P. (2017). Optimizing thermochromic VO₂ by co-doping with Wand Sr for smart window applications. Applied Physics Letters. 110(14), Article 141907. https://doi.org/10.1063/1.4979700