Spectral and Color Changes of Ag/TiO<sub>2</sub> Photochromic Films Deposited on Diffusing Paper and Transparent Flexible Plastic Substrates

Daouda K. Diop; Lionel Simonot; Juan Martínez-García; Mathieu Hébert; Yaya Lefkir; Grégory Abadias; Philippe Guérin; David Babonneau; Nathalie Destouches

Applied Spectroscopy
Vol. 71,
Issue 6,
pp. 1271-1279
(2017)

Spectral and Color Changes of Ag/TiO₂ Photochromic Films Deposited on Diffusing Paper and Transparent Flexible Plastic Substrates

Daouda K. Diop, Lionel Simonot, Juan Martínez-García, Mathieu Hébert, Yaya Lefkir, Grégory Abadias, Philippe Guérin, David Babonneau, and Nathalie Destouches

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Daouda K. Diop, Lionel Simonot, Juan Martínez-García, Mathieu Hébert, Yaya Lefkir, Grégory Abadias, Philippe Guérin, David Babonneau, and Nathalie Destouches, "Spectral and Color Changes of Ag/TiO₂ Photochromic Films Deposited on Diffusing Paper and Transparent Flexible Plastic Substrates," Appl. Spectrosc. 71, 1271-1279 (2017)

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Abstract

Giving paper and polymer photochromic properties under laser irradiation is challenging due to the low resistance of these materials to heat, their flexibility, and their possibly irregular structure. However, we could successfully deposit TiO₂/Ag/TiO₂ layers stacking on flexible white glossy paper and transparent polyethylene terephalate (PET) substrates using a reactive magnetron sputtering technique, and tailor coloration changes after laser irradiation, alternating visible and ultraviolet (UV) wavelengths. The sample colors are characterized by a panel of chromas depending on the irradiation conditions. We demonstrate that these chroma changes are due to morphological changes of Ag nanoparticles (NPs) after visible laser irradiation of the colored as-deposited sample. The process exhibits a good reversibility after subsequent UV irradiation due to the growth of new metallic Ag NPs. The colors displayed in diffuse reflection by the paper samples are more saturated than the ones displayed in regular transmission by PET samples. We demonstrate the efficiency of the photochromic process on such support by printing high resolution patterns exhibiting different colors depending on the observation conditions.

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Abstract

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Applied Spectroscopy