Abstract: The invention relates to an emulsification device for continuously producing emulsions, nano-emulsions, and/or dispersions having a liquid crystalline structure, comprising a) at least one mixing system, b) at least one drive for the stirring element, and c) at least one delivery unit for each component or each component mixture.

Abstract: The invention relates to an emulsification device for continuously producing emulsions, nano-emulsions, and/or dispersions having a liquid crystalline structure, comprising a) at least one mixing system, b) at least one drive for the stirring element, and c) at least one delivery unit for each component or each component mixture.

Abstract: The invention relates to an optically transparent polyol-in-oil-composition, wherein the composition comprises a) ?40 weight-% and ?90 weight-% of at least one low molecular weight polyol, b) >1.0 weight-% and <25 weight-% of at least one cosmetic or therapeutic active, c) ?1.0 weight-% and ?10 weight-% of at least one polyether-free emulsifier d) ?2.0 weight-% and ?25 weight-% of at least one oil component, wherein the emulsion comprises emulsifier coated droplets in a size range of ?20 nm and ?1000.

Abstract: The present invention relates to an aqueous formulation particularly for generating electrically conductive and/or reflective structures by microcontact printing, characterized in that the formulation contains at least a) ?15 to ?55 parts by weight water, b) ?10 to ?50 parts by weight alcohol, c) ?15 to ?45 parts by weight metal-based nanoparticles, d) 0.5 to ?10 parts by weight non-fluorinated surfactant, and e) ?0.5 to ?10 parts by weight fluorinated surfactant, wherein the above defined constituents a) to e) summarize to a concentration of ?100 parts by weight in the formulation. The wetting behavior especially of hydrophobic materials may significantly be improved. The present invention further relates to a method of generating structures, particularly being electrically conductive and/or reflective, on a substrate by microcontact printing and a substrate comprising such a structure.