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Solmers: Versatile hybrid resins for nanometric 3D printing of silica-based photonic components

Halima El Aadad, Hicham El Hamzaoui, Gaëlle Brévalle, Bernard Rémy, C. Kinowski, Yves Quiquempois, M. Douay

2024Materials Today Advances10 citationsDOIOpen Access PDF

Abstract

Owning to their intrinsic properties, silica-based glasses are widely used in various technological fields, especially in photonics. However, high degree of flexibility is yet challenging in realization of next-generation miniaturized optical components. In this work, we develop an approach based on ‶Solmers″ hybrid resins allowing versatile two-photon polymerization 3D printing of silica glasses with 23 nm resolution, doping with Germanium and/or rare-earths elements. Other dopants such as gold nanoparticles were also incorporated for localized metallization. After 3D printing and sintering (1100–1300 °C), high optical quality glasses with low surface roughness (<0.2 nm) were obtained. Structural analyses confirmed the amorphous structure of silica glasses. Various mono- or multi-materials microstructures were successfully fabricated on fused silica substrates. Besides, this approach was extended to the functionalization of optical fibers for optical sensing applications in harsh environment (1000 °C). Compared to organic or organic-inorganic materials, these dense silica-based glasses with enhanced optical and structural properties will open new avenues for the development of emerging advanced optical components.

Topics & Concepts

Materials scienceDopantPhotonicsNanotechnologyMicrostructureAmorphous solid3D printingSurface modificationHybrid materialDopingSurface roughnessOptoelectronicsChemical engineeringComposite materialOrganic chemistryChemistryEngineeringNonlinear Optical Materials StudiesLaser Material Processing TechniquesPhotonic Crystals and Applications