Synthesis of Fast Curing, Water‐Resistant and Photopolymerizable Glass for Recording of Holographic Structures by One‐ and Two‐Photon Lithography

Advancements in hybrid sol‐gel technology have provided a new class of holographic materials as photopolymerizable glasses. Recently, a number of photosensitive glass compositions with high dynamic range and high spatial resolution have been reported and their excellent capability for volume hologra...

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Bibliographic Details
Published in:Advanced optical materials 2022-03, Vol.10 (6), p.n/a
Main Authors: Mikulchyk, Tatsiana, Oubaha, Mohamed, Kaworek, Alicja, Duffy, Brendan, Lunzer, Markus, Ovsianikov, Aleksandr, E‐Gul, Sabad‐, Naydenova, Izabela, Cody, Dervil
Format: Article
Language:English
Subjects:
Condensates
Curing
Glass
Holographic optical elements
holographic recording materials
Mass production
Materials science
Micrometers
Optical components
Optics
photopolymerizable glass
Photosensitivity
Sol-gel processes
sol‐gel chemistry
Spatial resolution
Thick films
two‐photon polymerization
volume holography
water‐resistant materials
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Summary:Advancements in hybrid sol‐gel technology have provided a new class of holographic materials as photopolymerizable glasses. Recently, a number of photosensitive glass compositions with high dynamic range and high spatial resolution have been reported and their excellent capability for volume holography has been demonstrated. Nevertheless, challenges remain, particularly in relation to the processing time and environmental stability of these materials, that strongly affect the performance and durability of the fabricated holograms. State‐of‐the‐art photopolymerizable glasses possess long curing times (few days) required to achieve thick films, thus limiting the industrial implementation of this technology and its commercial viability. This article presents a novel, fast curing, water‐resistant, photopolymerizable hybrid sol‐gel (PHSG) for holographic applications. Due to introducing an amine‐based modifier that increases the condensation ability of the sol‐gel network, this PHSG overcomes the problem of long curing time and can readily produce thick (up to a few hundred micrometers) layers without cracking and breaking. In addition, this PHSG exhibits excellent water‐resistance, providing stable performance of holographic gratings for up to 400 h of immersion in water. This finding moves photopolymerizable glasses to the next development stage and renders the technology attractive for the mass production of holographic optical elements and their use across a wide number of outdoor applications. A novel photopolymerizable glass for the recording of holographic structures by one‐ and two‐photon lithography has been developed using sol‐gel chemistry. This material possesses a significantly improved curing time in comparison to other state‐of‐the‐art holographic photopolymerizable glasses and simultaneously realizes the goals for a holographic recording material of fast curing, high robustness, and water‐resistance, while exhibiting a high dynamic range.
ISSN:2195-1071
2195-1071
DOI:10.1002/adom.202102089