Abstract: A method is provided for producing a smart card comprising a chip module with at least one contacting area, the chip module arrangeable in a mounting location of a substrate, wherein one contacting loop is formed from a wire connector fed by a wire guiding unit for at least one of the contacting areas, respectively by attaching a first section of the wire conductor to a surface of the substrate outside the mounting location, wherein a second section of the wire conductor proximate to the first section is guided to form the contacting loop along with and protruding from the surface, wherein a subsequent third section of the wire conductor is attached to the surface outside the mounting location, wherein the chip module is inserted into the mounting location and wherein the second section is bent over and electrically contacted to the contacting area.

Abstract: The invention relates to nanoparticles, in particular surface-modified nanoparticles, having an average particle size, determined by means of particle correlation spectroscopy (PCS) or transmission electron microscope, in the range from 3 to 50 nm, dispersed in an organic solvent, characterised in that they are obtainable by a process in which one or more precursors of the nanoparticles are reacted with a compound M3?x[O3?xSiR1+x] in an organic solvent to give the nanoparticles, where x stands for an integer selected from 0, 1 or 2, M stands for H, Li, Na or K, and all R each, independently of one another, stand for a branched or unbranched, saturated or unsaturated hydrocarbon radical having 1 to 28 C atoms, in which one or more C atoms may be replaced by O, and to the use thereof for UV protection in polymers.

Abstract: The present invention relates to a method for producing an at least partially corrosion protected and in particular, shiny metallic and/or non-metallic substrate, comprising a) the provision of a substrate with an at least partially coatable surface, and b) the application of at least one metallic protective layer, containing a first metal, a first precious metal or a first metal alloy, and at least one salt, one oxide, double oxide, oxide hydrate, sulphide, halogenide, nitride, carbide, carbon nitride, boride, silicide, oxyhalogenide and/or salt of a second metal, second precious metal or second metal alloy.

Abstract: The present invention concerns ?-silyl terminated polydiorganosiloxanes, a method of making the ?-silyl terminated polydiorganosiloxanes, and sealant compositions containing said compounds and a method of using such sealant compositions.

Abstract: The present invention relates to a process for the preparation of an aqueous dispersion comprising at least one polymer and/or oligomer and inorganic surface-modified particles, where the polymer and/or oligomer sheathes the inorganic particles having a modified surface, to dispersions prepared using the process, and to the use thereof in paint or coating systems and as adhesives or sealants.

Abstract: The present invention relates to surface-modified particles which can be dispersed in organic solvents, and to the use thereof for incorporation into polymers, paints and coatings.

Abstract: The present invention relates to a polysiloxane of the general formula (I) having at least one epoxidic radical and at least one quaternary nitrogen atom and also a textile auxiliary which comprises at least one polysiloxane according to the present invention. The polysiloxane is capable of crosslinking with or on the fiber.

Abstract: The present invention relates to nanoparticulate hardening accelerators, to preparations prepared therefrom, in particular masterbatches comprising nanoparticles, and to the use thereof in polymer matrices, in particular surface coatings and printing inks of all types, which make extremely high demands of colour neutrality and/or transparency.

Abstract: The invention relates to a method for producing (semi)metal oxides and hydroxides, such as Si02, Ti02, Zr02, Zn0 and other (semi)metal salts such as BaSO4, which can be produced by emulsion precipitation in the form of nanoparticles from an aqueous solution. The invention also relates to the use of the same.

Abstract: The present invention relates to redispersible nanoparticles, to processes for the production thereof, and to the use thereof in formulations, surface coatings, paints and plastics.

Abstract: The invention relates to a method and coating agents used in the method which provide good adherence to and good corrosion protection of metal substrates; the coating coating agents are cross-linkable via radical polymerization. Adhesion promoting compounds are present in the conversion layer in a quantity of about 0.01 to 40 weight percent and contain, on average, one reactive unsaturated group and at least one H-active group per molecule.

Abstract: A method is provided for producing a smart card comprising a chip module with at least one contacting area, the chip module arrangeable in a mounting location of a substrate, wherein one contacting loop is formed from a wire connector fed by a wire guiding unit for at least one of the contacting areas, respectively by attaching a first section of the wire conductor to a surface of the substrate outside the mounting location, wherein a second section of the wire conductor proximate to the first section is guided to form the contacting loop along with and protruding from the surface, wherein a subsequent third section of the wire conductor is attached to the surface outside the mounting location, wherein the chip module is inserted into the mounting location and wherein the second section is bent over and electrically contacted to the contacting area.

Abstract: The present invention relates to a novel process for the preparation of compact, spherical mixed oxide powders having an average particle size of <10 ?m by spray pyrolysis, and to the use thereof as phosphor, as base material for phosphors or as starting material for ceramic production or for the preparation of high-density, high-strength and optionally transparent bulk material by means of hot-pressing technology.

Abstract: The invention relates to a method and coating agents used in the method which provide good adherence to and good corrosion protection of metal substrates; the coating coating agents are cross-linkable via radical polymerization. Adhesion promoting compounds are present in the conversion layer in a quantity of about 0.01 to 40 weight percent and contain, on average, one reactive unsaturated group and at least one H-active group per molecule.

Abstract: The invention relates to zinc oxide nanoparticles having an average particle size in the range from 3 to 50 nm, dispersed in an organic solvent, according to one or more of claims 1 to 6, characterised in that in a step a) one or more precursors of the nanoparticles are converted into the nanoparticles in an alcohol, in a step b) the growth of the nanoparticles is terminated by addition of at least one modifier, which is a precursor of silica, when the absorption edge in the UV/VIS spectrum of the reaction solution has reached the desired value, in a step c) the silica coating is modified by addition of at least one further surface modifier selected from the group consisting of organofunctional silanes, quaternary ammonium compounds, phosphonates, phosphonium and sulfonium compounds or mixtures thereof, and optionally, in step d), the alcohol from step a) is removed and replaced by another organic solvent, to isolated nanoparticles, and to the use thereof for UV protection in polymers.

Abstract: Compositions comprising at least one aminoalkylsiloxane and at least one higher alkyl-modified amido aminosiloxane modified by a compound having at least two hydroxyl groups selected from the group consisting of hydroxycarboxylic acids, monosaccharides, disaccharides and mixtures thereof are described along with fabric treatment agents containing such compositions, the use of such compositions and agents for treating fabrics, and containers with such compositions and/or agents.

Abstract: The present invention relates to a novel process for the production of spherical binary and multinary mixed oxide powders in a hot-wall reactor. Through the use of aqueous or organic salt solutions or suspensions having a limited salt or solid concentration in combination with additives in the form of surfactants and/or of inorganic salts which have an exothermic decomposition reaction, a compact spherical particle morphology can be obtained, where the average particle size is in the range from 5 nm to <10 ?m.

Abstract: The invention relates to the use of statistical copolymers containing at least one structural unit with hydrophobic radicals and at least one structural unit with hydrophilic radicals as dispersants for producing dispersions with an incompatible disperse and continuous phase, in particular, for dispersing particles with a hydrophilic surface in oils, dispersions or powder compositions, containing statistical copolymers and particles with a hydrophilic surface. The invention also relates to methods for producing these statistical copolymers.

Abstract: The invention relates to the use of statistical copolymers containing at least one structural unit containing hydrophobic radicals and at least one structural unit containing hydrophilic radicals as emulsifiers, in particular in the synthesis of nanoparticles, and to processes for the production of such particles in which, in a step a), an inverse emulsion comprising one or more water-soluble precursors of the nanoparticies or a melt is prepared with the aid of a statistical copolymer of at least one monomer containing hydrophobic radicals and at least one monomer containing hydrophilic radicals, and, in a step b), particles are produced.

Abstract: The invention relates to polymer-modified nanoparticles which are suitable as UV stabilisers in polymers, characterised in that they are obtainable by a process in which, in a step a), an inverse emulsion comprising one or more water-soluble precursors of the nanoparticles or a melt is prepared with the aid of a random copolymer of at least one monomer containing hydrophobic radicals and at least one monomer containing hydrophilic radicals, and, in a step b), particles are produced, and to the use thereof for UV protection in polymers.