Torsten Prenzel scite author profile

The demand for high precision optical elements as micro lens arrays for displays increases continually. Economic mass production of such optical elements is done by replication with high precision optical molds. A new approach for manufacturing such molds was realized by diamond machinable and wear resistant sol-gel coatings. Crack free silica based hybrid coatings from base catalyzed sols from tetraethylorthosilicate (TEOS: Si(OC2H5)4) and methyltriethoxysilane (MTES: Si(CH3)(OC2H5)3) precursors were deposited onto pre-machined steel molds by spin coating process followed by a heat treatment at temperatures up to 800°C. Crack-free multilayer coatings with a total thickness of up to 18 µm were achieved. Micro-machining of these coatings was accomplished by high precision fly cutting with diamond tools. Molds with micro-structured coatings were successfully tested for injection molding of PMMA optical components. The wear resistance of the coatings was successfully tested by injection molding of 1000 PMMA lenses. Hardness and elastic modulus of the coatings were measured by nano indentation. The chemical composition was measured by X-ray photo electron spectroscopy (XPS) as a function of the sol-gel processing parameters.

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Torsten Prenzel

Pyrolyzed polysiloxane membranes with tailorable hydrophobicity, porosity and high specific surface area

Tailoring surfaces of hybrid ceramics for gas adsorption – From alkanes to CO2

Tailoring amine functionalized hybrid ceramics to control CO2 adsorption

Mechanical and chemical properties of thick hybrid sol–gel silica coatings from acid and base catalyzed sols

Controlled hierarchical porosity of hybrid ceramics by leaching water soluble templates and pyrolysis

Multilayer model for determining the thickness and refractive index of sol–gel coatings via laser ellipsometry

Investigation of hydrogen concentration and hardness of ion irradiated organically modified silicate thin films

Diamond Machinable Sol-Gel Silica Based Hybrid Coatings for High Precision Optical Molds

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