Abstract: A resin composition is provided which contains a mixture comprising a cycloaliphatic epoxy resin, a coupling agent, and an epoxy-containing compound, and/or a polycarbonate alcohol. Further, the resin composition contains a hardener component comprising a dicarboxylic anhydride, a dicarboxylic anhydride semi ester, an organic phosphite and an accelerator.

Abstract: An optoelectronic device with a mixture including silicone and a fluoro-organic additive is disclosed. In an embodiment the device includes at least one radiation-emitting or radiation-detecting semiconductor and a mixture including silicone and a fluoro-organic additive. The mixture may be a component of at least one of the following elements: a package body element surrounding the at least one semiconductor at least in places, a radiation-guiding element arranged in a beam path of a radiation emitted by the semiconductor or detected by the semiconductor, a heat-conducting element configured to conduct heat emitted by the semiconductor or received by the semiconductor, or an adhesive element.

Abstract: The present invention relates to an optoelectronic component comprising a semiconductor (1) and a polyorganosiloxane. The polyorganosiloxane is obtainable by crosslinking a composition comprising a first organosiloxane having at least one terminal vinyl group, a second organosiloxane having at least one silicon-hydrogen bond and an alkoxysilane having at least one epoxy group. Additionally specified is a method of producing an optoelectronic component.

Abstract: The invention relates to an epoxy resin system comprising at least one inorganic filler (F) which has an upper grain size (dmax) of a maximum of 30 ?m and is an oxide or nitride of a metal or a semimetal, at least one cycloaliphatic epoxy resin, polyvinyl butyrate, at least one cationic accelerator, and wherein the epoxy resin system is a one-component system for thin-walled structural elements.

Abstract: An optoelectronic device with a mixture including silicone and a fluoro-organic additive is disclosed. In an embodiment the device includes at least one radiation-emitting or radiation-detecting semiconductor and a mixture including silicone and a fluoro-organic additive. The mixture may be a component of at least one of the following elements: a package body element surrounding the at least one semiconductor at least in places, a radiation-guiding element arranged in a beam path of a radiation emitted by the semiconductor or detected by the semiconductor, a heat-conducting element configured to conduct heat emitted by the semiconductor or received by the semiconductor, or an adhesive element.

Abstract: The present invention relates to an optoelectronic component comprising a semiconductor (1) and a polyorganosiloxane. The polyorganosiloxane is obtainable by crosslinking a composition comprising a first organosiloxane having at least one terminal vinyl group, a second organosiloxane having at least one silicon-hydrogen bond and an alkoxysilane having at least one epoxy group. Additionally specified is a method of producing an optoelectronic component.

Abstract: A varistor paste includes a matrix material and particles embedded into the matrix material, wherein the matrix material without embedded particles has a viscosity of less than 0.8 Pa·s, and the embedded particles include varistor particles. An optoelectronic component includes an optoelectronic semiconductor chip and a varistor element connected in parallel with the optoelectronic semiconductor chip, wherein the varistor element includes a matrix material and particles embedded into the matrix material, the embedded particles include varistor particles, and the matrix material has a glass transition temperature of more than 130° C. A method of producing a varistor paste includes providing a matrix material having a viscosity of less than 0.8 Pa·s; and embedding particles into the matrix material to form a varistor paste, wherein the embedded particles include varistor particles.

Abstract: An optoelectronic component includes at least one active semiconductor layer sequence, at least one first and one second element, and at least one adhesive layer arranged between at least one first element and at least one second element. The adhesive layer is produced from an adhesive that comprises at least a first monofunctional, difunctional or polyfunctional epoxy resin, an accelerator and an adhesion promoter.

Abstract: The light-radiating semiconductor component has a radiation-emitting semiconductor body and a luminescence conversion element. The semiconductor body emits radiation in the ultraviolet, blue and/or green spectral region and the luminescence conversion element converts a portion of the radiation into radiation of a longer wavelength. This makes it possible to produce light-emitting diodes which radiate polychromatic light, in particular white light, with only a single light-emitting semiconductor body. A particularly preferred luminescence conversion dye is YAG:Ce.

Abstract: An optoelectronic semiconductor device has a carrier foil that includes a first surface and a second surface opposite the first surface. At least one electrically conductive contact layer is arranged on the first surface and covers the first surface in places and contains at least one metal. At least one radiation-emitting optoelectronic semiconductor component is arranged on an outer face, remote from the carrier foil, of the electrically conductive contact layer. The radiation-emitting, optoelectronic semiconductor component is electrically conductively connected to the at least one electrically conductive contact layer. The carrier foil is formed with at least one polymer or contains at least one polymer. At least one monomer of the polymer is formed with at least one C—F bond, with C denoting carbon and F fluorine.

Abstract: An optoelectronic component includes at least one active semiconductor layer sequence, at least one first and one second element, and at least one adhesive layer arranged between at least one first element and at least one second element. The adhesive layer is produced from an adhesive that comprises at least a first monofunctional, difunctional or polyfunctional epoxy resin, an accelerator and an adhesion promoter.

Abstract: A polymer composite includes a polymer matrix and ZnO particles distributed in the polymer matrix, wherein the polymer composite is a barrier for compounds containing sulfur.

Abstract: Disclosed is a wavelength-converting converter material comprising at least one wavelength-converting phosphor comprising phosphor particles, wherein a portion of said phosphor or all of said phosphor is present in the form of nanoparticles. Also disclosed is a light-emitting optical component comprising such a converter material and a method for producing such components.

Abstract: An optoelectronic semiconductor device has a carrier foil that includes a first surface and a second surface opposite the first surface. At least one electrically conductive contact layer is arranged on the first surface and covers the first surface in places and contains at least one metal. At least one radiation-emitting optoelectronic semiconductor component is arranged on an outer face, remote from the carrier foil, of the electrically conductive contact layer. The radiation-emitting, optoelectronic semiconductor component is electrically conductively connected to the at least one electrically conductive contact layer. The carrier foil is formed with at least one polymer or contains at least one polymer. At least one monomer of the polymer is formed with at least one C-F bond, with C denoting carbon and F fluorine.

Abstract: The light-radiating semiconductor component has a radiation-emitting semiconductor body and a luminescence conversion element. The semiconductor body emits radiation in the ultraviolet, blue and/or green spectral region and the luminescence conversion element converts a portion of the radiation into radiation of a longer wavelength. This makes it possible to produce light-emitting diodes which radiate polychromatic light, in particular white light, with only a single light-emitting semiconductor body. A particularly preferred luminescence conversion dye is YAG:Ce.

Abstract: Electronic, in particular optical or optoelectronic, component comprising a device which comprises a thermoplastic material which has particles which comprise a core and a shell, wherein the shell is disposed on the surface of the core and wherein the core comprises aluminium.

Abstract: Composition for producing a filter material for radiation includes a silicone and at least one dye dispersed in the silicone, wherein the composition has a relative transmission of less than 20% for radiation of the wavelength of 400 nm to 700 nm, and has a relative transmission of greater than 50% for radiation of the wavelength of 850 nm to 1025 nm.

Abstract: The wavelength-converting casting composition is based on a transparent epoxy casting resin with a luminous substance admixed. The composition is used in an electroluminescent component having a body that emits ultraviolet, blue or green light. An inorganic luminous substance pigment powder with luminous substance pigments is dispersed in the transparent epoxy casting resin. The luminous substance is a powder of Ce-doped phosphors and the luminous substance pigments have particle sizes ?20 ?m and a mean grain diameter d50?5 ?m.

Abstract: The wavelength-converting casting composition is based on a transparent epoxy casting resin with a luminous substance admixed. The composition is used in an electroluminescent component having a body that emits ultraviolet, blue or green light. An inorganic luminous substance pigment powder with luminous substance pigments is dispersed in the transparent epoxy casting resin. The luminous substance is a powder of Ce-doped phosphors and the luminous substance pigments have particle sizes?20 ?m and a mean grain diameter d50?5 ?m.

Abstract: The wavelength-converting casting composition is based on a transparent epoxy casting resin with a luminous substance admixed. The composition is used in an electroluminescent component having a body that emits ultraviolet, blue or green light. An inorganic luminous substance pigment powder with luminous substance pigments is dispersed in the transparent epoxy casting resin. The luminous substance is a powder of Ce-doped phosphors and the luminous substance pigments have particle sizes ?20 ?m and a mean grain diameter d50?5 ?m.