Synthesis of colloidal VO2 nanoparticles for thermochromic applications

Vanadium dioxide (VO2) thin films are key materials for thermochromic smart windows and commonly have a typical phase transition (insulator to metal phase) at a transition temperature of 68°C. This research, however, found that highly crystallized VO2 nanoparticles can be successfully coated on a gl...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2018-03, Vol.176, p.266-272
Main Authors: Choi, Yongwon, Sim, Dong Min, Hur, Yoon Hyung, Han, Hyeuk Jin, Jung, Yeon Sik
Format: Article
Language:English
Subjects:
Luminous transmittance
Nanopatterning
Thermochromic
Vanadium dioxide
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Summary:Vanadium dioxide (VO2) thin films are key materials for thermochromic smart windows and commonly have a typical phase transition (insulator to metal phase) at a transition temperature of 68°C. This research, however, found that highly crystallized VO2 nanoparticles can be successfully coated on a glass substrate with added functionalities, such as higher luminous transmittance and transition efficiency. The transition temperature revealed that the VO2 nanoparticles with post thermal treatment at 600°C also clearly exhibited a reduced transition temperature of 69°C in the heating curve, 59°C in the cooling curve, and a transition width of 10°C. By nanopatterning the thin films, we were able to prepare VO2 thin films with higher luminous transmittance than that attained with non-patterned VO2 thin films. The enhanced transition property was demonstrated using highly crystallized VO2 nanoparticles induced by post thermal treatment, and the luminous transmittance was improved by the nanopatterns on the surface of the VO2 thin films. •Vanadium dioxide nanoparticles are synthesized by thermolysis.•The crystallinity and microstructure were improved by post thermal annealing.•Transition temperatures were 69°C and 59°C in the heating and cooling curves.•Nanopatterned VO2 thin films enhanced the luminous transmittance.
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2017.12.008