Thomas Kittel scite author profile

We report on the direct consequences of reversible water adsorption on the optical performance of silica-based nanoporous antireflective (AR) coatings as they are applied on glass in photovoltaic and solar thermal energy conversion systems. In situ UV-VIS transmission spectroscopy and path length measurements through high-resolution interferometric microscopy were conducted on model films during exposure to different levels of humidity and temperature. We show that water adsorption in the pores of the film results in a notable increase of the effective refractive index of the coating. As a consequence, the AR effect is strongly reduced. The temperature regime in which the major part of the water can be driven-out rapidly lies in the range of 55°C and 135°C. Such thermal desorption was found to increase the overall transmission of a coated glass by ~ 1%-point. As the activation energy of isothermal desorption, we find a value of about 18 kJ/mol. Within the experimental range of our data, the sorption and desorption process is fully reversible, resulting in optical breathing of the film. Nanoporous AR films with closed pore structure or high hydrophobicity may be of advantage for maintaining AR performance under air exposure.

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Femtosecond-laser-writing in various glasses

Ehrt

Kittel

Will³

et al. 2004

Journal of Non-Crystalline Solids

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Deepening our understanding of bioactive glass crystallization using TEM and 3D nano-CT

Jaimes

Pablos-Martín

Hurle

et al. 2021

Journal of the European Ceramic Society

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Thomas Kittel

High-performance glass for the deep ultraviolet range

Optical breathing of nano-porous antireflective coatings through adsorption and desorption of water

Femtosecond-laser-writing in various glasses

Deepening our understanding of bioactive glass crystallization using TEM and 3D nano-CT

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