Patent application number | Description | Published |
20120244322 | METHOD FOR SPATIALLY RESOLVED ENLARGEMENT OF NANOPARTICLES ON A SUBSTRATE SURFACE - The invention relates to a method for spatially resolving the enlargement and fine adjustment of precious metal nanoparticles according to size on a substrate surface and to the nanoparticle arrangements and nanostructured substrate surfaces thereby produced and to the use thereof. The invention particularly relates to a method for spatially resolving the enlargement of precious metal nanoparticles present on a substrate, comprising the following steps: a) providing a substrate coated by precious metal nanoparticles, b) optionally functionalizing the substrate by means of an agent which supports the adhesion of the precious metal nanoparticles to the substrate, c) contacting the substrate with a precious metal salt solution, d) UV irradiating the substrate in contact with the precious metal salt solution, thus creating a reduction of the precious metal salt and a currentless deposition of elementary precious metal on the precious metal nanoparticles and corresponding growth of the precious metal nanoparticles in the irradiated regions of the substrate, and e) optionally using a mask in order to create localized growth of the precious metal nanoparticles in predetermined regions of the substrate. | 09-27-2012 |
20120268823 | METHOD FOR THE PRODUCTION OF CONICAL NANOSTRUCTURES ON SUBSTRATE SURFACES - The invention relates to conical structures on substrate surfaces, in particular optical elements, to methods for the production thereof and to the use thereof, in particular in optical devices, solar cells and sensors. The conical nanostructures according to the invention are suitable in particular for providing substrate surfaces having very low light reflection. The method according to the invention for producing conical nanostructures on substrate surfaces comprises at least the steps of: a) providing a substrate surface covered with nanoparticles; b) etching the substrate surface covered with nanoparticles to a depth of at least 100 nm, wherein the nanoparticles act as an etching mask and the etching parameters are set in such a way that hyperboloid structures are produced underneath the nanoparticles; c) breaking the hyperboloid structures in the region of the smallest diameter by exerting mechanical forces, wherein the structures remaining on the substrate surface have a conical shape which corresponds substantially to half a single-shell hyperboloid. | 10-25-2012 |
20130284690 | PROCESS FOR PRODUCING HIGHLY ORDERED NANOPILLAR OR NANOHOLE STRUCTURES ON LARGE AREAS - The present invention relates to an improved process for producing highly ordered nanopillar or nanohole structures, in particular on large areas, which can be used as masters in NIL, hot embossing or injection molding processes. The process involves decorating a surface with an ordered array of metal nanoparticles produced by means of a micellar block- copolymer nano-lithography process; etching the primary substrate to a depth of 50 to 500 nm, where the nanoparticles act as a mask and an ordered array of nanopillars or nanocones corresponding to the positions of the nanoparticles is thus produced; using the nanostructured master or stamp in a structuring processes. Also the finished nanostructured substrate surface can be used as a sacrificial master which is coated with a continuous metal layer and the master is then etched away to leave a metal stamp having an ordered array of nanoholes which is a negative of the original array of nanopillars or nanocones. | 10-31-2013 |