Journal
SOLAR ENERGY MATERIALS AND SOLAR CELLS
Volume 236, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.solmat.2021.111519
Keywords
F-doped CsxWO3 nanocrystals; Energy-efficient windows; Absorption coefficient; Free carrier density; Carrier mobility
Funding
- TCS project of the Hong Kong Innovation and Technology Fund [UIT/139]
- Sola Green Technologies Limited
- National Natural Science Foundation of China [61705258]
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This study investigates the effects of F doping on the optical properties of CsxWO3 nanocrystals for the development of spectrally selective coatings for energy-efficient windows. It is found that F doping enhances the absorption performance and free carrier density of the nanocrystals, resulting in improved spectral selectivity of the coating.
Spectrally selective materials have been widely used to shield near-infrared radiation for windows in the region with a cooling-demand climate. CsxWO3 nanocrystals which exhibit strong localized surface plasmon resonance (LSPR) effect and small polaron transfer in near-infrared radiation have attracted great attention for fabricating the spectrally selective coating. The enhancement of its optical performance remains a challenge in energy-efficient windows. Herein, F-doped CsxWO3 nanocrystals were successfully prepared by a solvothermal method, which demonstrate stronger near-infrared absorption performance than CsxWO3 nanocrystals. The introduction of fluorine can enhance the free carrier density of the nanocrystals, which can lead to a higher absorption coefficient. The absorption coefficient variation of LSPR effect and small polaron transfer was explained by the variation of free carrier density and carrier mobility. When the F/W molar ratio was 0.4, the free carrier density reached 9.25 x 10(14) cm(-3). The spectrally selective coating prepared by F-doped CsxWO3 nanocrystals exhibited superior spectral selectivity with T-Vis, T-NIR, T-lum, and T-sol of 67.21%, 11.85%, 72.76% and 49.01%, respectively. This substitutional doping strategy provides a promising potential to improve the spectral modulation of CsxWO3 nanocrystals for practical application of energy-saving windows.
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