In order to realize a versatile high throughput production of micro-optical elements, UV-curable polymer composites containing titanium dioxide nanoparticles were prepared and characterized. The composites are based on an industrial prototype epoxy polymer. Titanium dioxide nanoparticles smaller than 10 nm were synthesized by the nonaqueous sol method and in situ sterically stabilized by three different organic surfactants. The composites exhibit high transparency. Distinct alteration of optical transmission properties for visible light and near IR wavelength range could be avoided by adaption of the stabilizing organic surfactant. Most importantly, the refractive index (RI) of the composites that depends on the fraction of incorporated inorganic nanoparticles could be directly tuned. E.g. the RI at a wavelength of 635 nm of a composite containing 23 wt% titanium dioxide nanoparticles is increased to 1.626, with respect to a value of 1.542 for the pure polymer. Furthermore...
J Landwehr, R Fader, M Rumler, M Rommel, A J Bauer, L Frey, B Simon, B Fodor, P Petrik, A Schiener, B Winter and E Spiecker
Click for full article
J Landwehr, R Fader, M Rumler, M Rommel, A J Bauer, L Frey, B Simon, B Fodor, P Petrik, A Schiener, B Winter and E Spiecker
Click for full article
No comments:
Post a Comment