Infrared properties of sol-gel derived zirconia film

We examined infrared transmission characteristics of a sol-gel derived zirconia film and the antireflective (AR) effect of this film for an Si substrate in the midinfrared region. The surface reflection loss of an Si plate is high (∼30%) because of the high refractive index (3.42) in the infrared re...

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Bibliographic Details
Published in:Optical engineering 2017-07, Vol.56 (7), p.077104-077104
Main Authors: Yamada, Itsunari, Torii, Hiroki, Ishihara, Yoshiro
Format: Article
Language:English
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Summary:We examined infrared transmission characteristics of a sol-gel derived zirconia film and the antireflective (AR) effect of this film for an Si substrate in the midinfrared region. The surface reflection loss of an Si plate is high (∼30%) because of the high refractive index (3.42) in the infrared region. We employed zirconia nanoparticle dispersion with 15 wt. % (1-butanol solvent) as starting sol solution. Then, the dispersion was coated with Si substrate at a spin-coating speed of 2000 rpm, and the substrate was heated to 150°C. The number of coatings was repeated seven times. As a result, the transmittance at 5.6-μm wavelength was enhanced to 66.2%, and we found that the coated film worked efficiently as the AR film up to 10-μm wavelength. Additionally, by heating the substrate to 800°C, the large absorptions at 2.9-, 6.4-, and 6.9-μm wavelengths could be suppressed because the hydroxy group in the film was reduced. Its peak transmittance was 67.9% at 4.9-μm wavelength.
ISSN:0091-3286
1560-2303
DOI:10.1117/1.OE.56.7.077104