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3D printing of optical materials: an investigation of the microscopic properties

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arxiv 1807.03201 v1 pith:CDFBOE24 submitted 2018-07-09 physics.app-ph cond-mat.mtrl-sci

3D printing of optical materials: an investigation of the microscopic properties

classification physics.app-ph cond-mat.mtrl-sci
keywords opticalprintedprintingmaterialspropertiesstructuresallowsexperimental
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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3D printing technologies are currently enabling the fabrication of objects with complex architectures and tailored properties. In such framework, the production of 3D optical structures, which are typically based on optical transparent matrices, optionally doped with active molecular compounds and nanoparticles, is still limited by the poor uniformity of the printed structures. Both bulk inhomogeneities and surface roughness of the printed structures can negatively affect the propagation of light in 3D printed optical components. Here we investigate photopolymerization-based printing processes by laser confocal microscopy. The experimental method we developed allows the printing process to be investigated in-situ, with microscale spatial resolution, and in real-time. The modelling of the photo-polymerization kinetics allows the different polymerization regimes to be investigated and the influence of process variables to be rationalized. In addition, the origin of the factors limiting light propagation in printed materials are rationalized, with the aim of envisaging effective experimental strategies to improve optical properties of printed materials.

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