摘要:
The invention relates to a layered system of a component that can be thermally stressed, comprising at least one for expanding the application scope of layered systems and in particular for improving their life cycle. Said layer has at least one first and at least one second material and a mixture profile (1) that varies at least almost continuously with the layer thickness, without forming a boundary layer between the first and second material.
摘要:
A measuring device for quantitative determination of optical characteristic values for detecting photo- and/or electrochemical decomposition reactions taking place on surfaces of photocatalytically active substrates.
摘要:
A measuring device for quantitative determination of optical characteristic values for detecting photo- and/or electrochemical decomposition reactions taking place on surfaces of photocatalytically active substrates.
摘要:
Transparent, temperature-stable coatings based on titanium oxide with a high refractive index and improved thermal and mechanical properties comprise titanium oxide with at least one additive from the group comprising aluminum and/or aluminum oxide, whereby the proportion of Al atoms in the coating, with reference to the total number of metal atoms in the coating is in the range from 2 to 4%.
摘要:
The invention relates to methods and devices for producing one or more low-particle layers on substrates in a vacuum. The layers are deposited onto the substrate from a cylindrical source material, optionally together with a reactive gas component, by means of magnetron sputtering. The layer is deposited against the force of gravity in a sputter-up method. During the method or within the device, the structure or stochiometric atomic composition of the layers can optionally be modified using a plasma source. Multiple sputtering sources with different source materials can be provided in the device such that multiple layers of different compositions can be applied on the substrate at a high speed in one process.
摘要:
The invention relates to a method of producing titanium oxide coatings and also to articles, in particular lamps, lights or optical elements having said coating. In order to develop a method of the generic type such that the coating with rutile is considerably simplified, and to be able to carry it out at lower process temperatures, and also to find suitable surfaces for coating in this way, the invention proposes that the coating be deposited, with the rutile structure being obtained, on the surface of the substrate that is to be coated, at an oxygen partial pressure p which can be defined, by sputtering, at a deposition temperature of 100 to 300° C. from a titanium target.
摘要:
The invention relates to methods and devices for producing one or more low-particle layers on substrates in a vacuum. The layers are deposited onto the substrate from a cylindrical source material, optionally together with a reactive gas component, by means of magnetron sputtering. The layer is deposited against the force of gravity in a sputter-up method. During the method or within the device, the structure or stochiometric atomic composition of the layers can optionally be modified using a plasma source. Multiple sputtering sources with different source materials can be provided in the device such that multiple layers of different compositions can be applied on the substrate at a high speed in one process.
摘要:
A method for producing layer systems on substrates includes irradiating a first vacuum coating source with an irradiating source. The first vacuum coating source includes a first layer material that is dissolved in a solvent. A second vacuum coating source is applied to the substrate via a chemical vapor deposition process. In this way, novel layer systems and mixed layers, in particular mixed layers of polymers and metals or metal oxides can be applied.
摘要:
High temperature-resistant transparent coatings based on zirconium oxide, which have improved dispersion properties and a high refractive index, comprise zirconium oxide with at least one additive from the group consisting of tantalum and/or tantalum oxide, whereby the proportion of Ta atoms, in relation to the total number of metal atoms in the coating is in the range of 5 to 30%.