Abstract: The invention present describes novel cleaning agents based on a multiphase system, the use thereof for removing photoresist coatings from surfaces, and a method for removing photoresist coatings from surfaces. The multiphase system according to the invention is used in particular for removing coatings, photoresist coatings, polymer layers, dirt layers, insulation layers, and metal layers from surfaces.

Abstract: The invention present describes novel cleaning agents based on a multiphase system, the use thereof for removing photoresist coatings from surfaces, and a method for removing photoresist coatings from surfaces. The multiphase system according to the invention is used in particular for removing coatings, photoresist coatings, polymer layers, dirt layers, insulation layers, and metal layers from surfaces.

Abstract: The invention relates to the manufacture and use of a cleaning agent, characterized in that the cleaning agent comprises a microemulsion or a fluid nanophase system, and has the following components: a) at least one non-water-soluble substance having a solubility in water of less than 4 g per liter, b) at least one amphiphile substance, NP-MCA, that has no tenside structure, does not form structures on its own, has a solubility in water or oil between 4 g and 1000 g per liter, and preferably does not accumulate at the oil-water boundary, with the provision that NP-MCA is not selected from among 2-Ethyl-1,3-Hexanediol, 2-Methyl-2,4-Pentanediol, 2-(n-Butyl)-2-Ethyl-1,3-Propanediol and/or 1,2-Diols; c) at least one anionic, cationic, amphoteric and/or non-ionic tenside; d) water and/or a water-soluble solvent having hydroxyl functionality and, optionally, additives.

Abstract: A method for cleaning objects made of organic or inorganic materials, wherein the relevant material is brought into contact with a composition in the form of a fluid nanophase system, comprising a) at least one water-insoluble substance having a water solubility of less than 4 grams per liter, b) at least one amphiphilic substance (NP-MCA) which has no surfactant structure, is not structure-forming on its own, the solubility of which in water or oil ranges between 4 g and 1000 g per liter and which does not preferably accumulate at the oil-water interface, c) at least one anionic, cationic, amphoteric and/or non-ionic surfactant, d) at least one polar protic solvent, in particular having hydroxy functionality, e) if necessary one or more auxiliary substance.

Abstract: A method for cleaning objects made of organic or inorganic materials, wherein the relevant material is brought into contact with a composition in the form of a fluid nanophase system, comprising a) at least one water-insoluble substance having a water solubility of less than 4 grams per liter, b) at least one amphiphilic substance (NP-MCA) which has no surfactant structure, is not structure-forming on its own, the solubility of which in water or oil ranges between 4 g and 1000 g per liter and which does not preferably accumulate at the oil-water interface, c) at least one anionic, cationic, amphoteric and/or non-ionic surfactant, d) at least one polar protic solvent, in particular having hydroxy functionality, e) if necessary one or more auxiliary substance.

Abstract: Preparations for external application to human and animal skin, comprising: a) a composition in the form of a fluid nanophase system, comprising the components of a1) at least one water-insoluble substance with a water solubility of less than 4 gram per liter, a2) at least one amphiphilic substance (NP-MCA), which has no surfactant structure, does not build structures alone, the solubility of which is between 4 g and 1000 g per liter in water or oil and which does not enrich preferably at the oil-water interface, a3) at least one anionic, cationic, amphoteric and/or non-ionic surfactant, a4) at least one polar protic solvent, in particular having hydroxy functionality, a5) if necessary one or more adjuvants, wherein the percentage relate to the total weight of the composition each; and b) a therapeutic, cosmetic or diagnostically effective agent in a therapeutic, cosmetic or diagnostically effective amount.

Abstract: An apparatus for setting the spacing of a free standing range relative to a floor includes a base component for contacting the floor, a threaded element, and a winding follower. The winding follower extends into the helical recess of the threaded element such that the winding follower travels progressively further along the helical recess of the threaded element. A blocking member engages the winding follower during travel of the winding follower along the helical recess of the threaded element to resist a disengagement movement.

Abstract: The invention relates to a cleaning agent, characterized in that the cleaning agent comprises a microemulsion or a fluid nanophase system, and has the following components: a) at least one non-water-soluble substance having a solubility in water of less than 4 g per liter; b) at least one amphiphile substance, NP-MCA, that has no tenside structure, does not form structures on its own, has a solubility in water or oil between 4 g and 1000 g per liter, and preferably does not accumulate at the oil-water boundary, with the provision that NP-MCA is not selected from among 2-Ethyl-1,3-Hexanediol, 2-Methyl-2,4-Pentanediol, 2-(n-Butyl)-2-Ethyl-1,3-Propanediol and/or 1,2-Diols; c) at least one anionic, cationic, amphoteric and/or non-ionic tenside; d) water and/or a water-soluble solvent having hydroxyl functionality and, optionally, additives.

Abstract: A control element for a household appliance is provided. The control element has a base member made of plastic. The base member has a nickel coating, and a noble metal coating is applied to the nickel coating.

Abstract: An apparatus for setting the spacing of a free standing range relative to a floor includes a base component for contacting the floor, a threaded element, and a winding follower. The winding follower extends into the helical recess of the threaded element such that the winding follower travels progressively further along the helical recess of the threaded element. A blocking member engages the winding follower during travel of the winding follower along the helical recess of the threaded element to resist a disengagement movement.

Abstract: An apparatus for setting the spacing of a free standing range relative to a floor includes a base component for contacting the floor, a threaded element, and a winding follower. The winding follower extends into the helical recess of the threaded element such that the winding follower travels progressively further along the helical recess of the threaded element. A blocking member engages the winding follower during travel of the winding follower along the helical recess of the threaded element to resist a disengagement movement.

Abstract: A method for producing a silicon-on-insulator layer structure on a silicon surface with any desired geometry can locally produce the silicon-on-insulator structure. The method includes formation of mesopores in the silicon surface region, oxidation of the mesopore surface to form silicon oxide and rib regions from silicon in single-crystal form; and execution of a selective epitaxy process that that silicon grows on the uncovered rib regions, selectively with respect to the silicon oxide regions. Rib regions remain in place between adjacent mesopores, this step being ended as soon as a predetermined minimum silicon wall thickness of the rib regions is reached, the uncovering of the rib regions, which are arranged at the end remote from the semiconductor substrate between adjacent mesopores. The method can be used to fabricate a vertical transistor and a memory cell having a select transistor of this type.

Abstract: An electrochemical method is provided for producing trenches for trench capacitors in p-doped silicon with a very high diameter/depth aspect ratio for large scale integrated semiconductor memories. Trenches (macropores) having a diameter of less than about 100 nm and a depth of more than 10 ?m can be produced on p-doped silicon having a very low resistivity at a high etching rate.

Abstract: The invention relates to an enzymatic-chemical method for obtaining polyhydroxyalkanoates (PHA), especially polyhydroxybutyrate (PHB), or the copolymers thereof, from biomass. The inventive method comprises chemically treating the biomass with a reducing agent that reduces the non-PHA cell components of the biomass. The chemical treatment is carried out before and/or after enzymatic cell disruption. The inventive method allows, unlike other cell disruption techniques, for obtaining polyhydroxyalkanoates from biomass with a relatively low PHA content (for example <60%) without drastically changing or deteriorating the polymer properties or polymer purity.