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Combined negative thermal expansion and anti-reflective effects of ZrW2O8 layer on the VO2 films with an enhanced luminous transmittance

Abstract ZrW2O8 with excellent negative thermal expansion coefficient and anti-reflective property, was successfully introduced onto VO2 thermochromic films. With an increase in temperature, thermal expansion mismatch appears at the interface… Click to show full abstract

Abstract ZrW2O8 with excellent negative thermal expansion coefficient and anti-reflective property, was successfully introduced onto VO2 thermochromic films. With an increase in temperature, thermal expansion mismatch appears at the interface between VO2 and ZrW2O8 layers, and the concave-shaped structures are formed to collect more light. Additionally, ZrW2O8 serves as an anti-reflective coating, which results in a significant enhancement in luminous transmittance. The luminous transmittance of VO2/ZrW2O8 and ZrW2O8/VO2/ZrW2O8 films is 71.9% and 75.7%, respectively, which have shown significant improvement compared to 39.8% for intrinsic VO2 film. In addition, the solar modulation value of VO2/ZrW2O8 and ZrW2O8/VO2/ZrW2O8 films have also been improved compared to VO2 film, and the obtained value for bi-layer film is higher than that of tri-layer film. The results obtained for VO2/ZrW2O8 and ZrW2O8/VO2/ZrW2O8 films have shown a remarkable improvement over other bi-layer or tri-layer structures. The described VO2/ZrW2O8 and ZrW2O8/VO2/ZrW2O8 films with enhanced luminous transmittance and solar modulation make them promising materials for the application in smart windows.

Keywords: vo2 zrw2o8; luminous transmittance; thermal expansion; zrw2o8; vo2

Journal Title: Solar Energy Materials and Solar Cells
Year Published: 2020

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