Abstract: A method of the present invention includes polishing a wafer having an exposed copper or copper alloy surface and an exposed silicon surface by using a polishing composition containing 0.02 to 0.6% by mass of hydrogen peroxide, preferably 0.05 to 0.2% by mass thereof. The polishing composition preferably further contains at least one of a complexing agent, an inorganic electrolyte, and abrasive grains such as colloidal silica. The polishing composition has a pH of preferably 9 or more, more preferably 10 or more.

Abstract: A polishing composition contains at least abrasive grains and water and is used in polishing an object to be polished formed of a substrate material for optical devices, a substrate material for power devices, or a compound semiconductor material. The abrasive grains have a zeta potential satisfying the relationship X×Y?0, where X [mV] represents the zeta potential of the abrasive grains measured in the polishing composition and Y [mV] represents the zeta potential of the object to be polished measured during polishing using the polishing composition. The abrasive grains are preferably of aluminum oxide, silicon oxide, zirconium oxide, diamond, or silicon carbide. The object to be polished is preferably of sapphire, gallium nitride, silicon carbide, gallium arsenide, indium arsenide, or indium phosphide.

Abstract: A polishing composition is disclosed containing a nonionic active agent with a molecular weight of 1,000 or more and less than 100,000 and an HLB value of not less than 17, a basic compound, and water. The nonionic active agent is preferably an oxyalkylene homopolymer or a copolymer of different oxyalkylenes. The polishing composition may further contain at least one of silicon dioxide and a water-soluble polymer. The polishing composition is used, for example, in polishing the surface of semiconductor substrates such as silicon wafers.

Abstract: According to the present invention, a filtration method capable of prolonging the life of a filter and regenerating it without impairing the efficiency can be provided. Further, a filter regenerating method and a regenerating apparatus, for efficiently regenerating a filter, are provided. The filtration method of the present invention is a method of subjecting a liquid to filtration by using a resin media filter, wherein ultrasonic waves at a frequency of at least 30 kHz are applied to the filter while the filtration is carried out, during the temporary stop of the filtration or after completion of the filtration. Efficient purification is possible by subjecting a polishing composition to filtration by such a filtration method. Further, the filter regenerating method of the present invention comprises applying ultrasonic waves at a frequency of at least 30 kHz to a used resin filter.

Abstract: A method for producing boehmite particles includes subjecting powder of aluminum hydroxide to hydrothermal reaction together with a nucleation agent, thereby obtaining boehmite particles having an average primary particle size of 0.6 ?m or less and including primary particles each having a hexahedral shape. A method for producing alumina particles includes: drying the boehmite particles produced by the above described method; calcining the boehmite particles, which have been dried, to obtain alumina particles; and disintegrating the obtained alumina particles.

Abstract: To provide a wetting agent for semiconductors and a polishing composition whereby the wettability of a semiconductor substrate surface can be improved, and microdefects such as particle attachments can be remarkably reduced. A wetting agent for semiconductors, comprising a water soluble polymer compound having a low viscosity and water, and a polishing composition. A 0.3 wt % aqueous solution of the water soluble polymer compound has a viscosity of less than 10 mPa·s at 25° C.

Abstract: A cleaning solution for cleaning a substrate for semiconductor devices and a cleaning method using the said cleaning solution, which comprises at least the following components (A), (B) and (C): (A) an ethyleneoxide-type surfactant containing a hydrocarbon group which may have a substituent group except for phenyl, and a polyoxyethylene group in which a ratio (m/n) of a number (m) of carbon atoms contained in the hydrocarbon group to a number (n) of oxyethylene groups contained in the polyoxyethylene group is in the range of 1 to 1.5, the number (m) of carbon atoms is not less than 9, and the number (n) of oxyethylene groups is not less than 7; (B) water; and (C) alkali or an organic acid.

Abstract: Multifunction production equipment enabling a plurality of processes in which deposition of reaction products on the inner wall of the processing chamber of equipment for producing a semiconductor or a flat-plate display, metal contamination due to corrosion of the inner wall, or the like, and fluctuation of the process due to discharged gas are suppressed, and a protective film structure for use therein. On the surface of a metal material, a first coating layer having an oxide coating of 1? thick or less formed as an underlying layer by direct oxidation of a parent material, and a second coating layer of about 200 ?m thick are formed. With such an arrangement, corrosion resistance against irradiation with ions or radicals can be imparted to a second layer protective film, and the effect of a protective layer for preventing corrosion of the surface of parent metal caused by diffusing molecules or ions into the second layer protective film can be imparted to the first layer oxide film.

Abstract: To provide a cleaning solution for a substrate for a semiconductor device capable of removing particle contamination, organic contamination and metal contamination at the same time without corroding the substrate surface, and further having good water rinsability and capable of making the substrate surface highly clean in a short time, and a cleaning method.

Abstract: It has been difficult to provide a large-sized ceramic member quickly and economically. A multilayer structure is produced by forming a ceramic film on a base which is made of a material that can be shaped comparatively easily. The ceramic film is formed by a plasma spraying method, CVD method, PVD method, sol-gel method or the like. Alternatively, the ceramic film may be formed by a method combined with a spray deposit film.

Abstract: A metal oxide film suitable for protection of metals, composed mainly of aluminum. A metal oxide film includes a film of an oxide of a metal composed mainly of aluminum, having a thickness of 10 nm or greater, and exhibiting a moisture release rate from the film of 1E18 mol./cm2 or less. Further, there is provided a process for producing a metal oxide film, wherein a metal composed mainly of aluminum is subjected to anodic oxidation in a chemical solution of 4 to 10 pH value so as to obtain a metal oxide film.

Abstract: Surface treatment is performed with a liquid, while shielding a semiconductor surface from light. When the method is employed for surface treatment in wet processes such as cleaning, etching and development of the semiconductor surface, increase of surface microroughness can be reduced. Thus, electrical characteristics and yield of the semiconductor device are improved.

Abstract: A cleaning solution for cleaning a substrate for semiconductor devices and a cleaning method using the said cleaning solution, which comprises at least the following components (A), (B) and (C): (A) an ethyleneoxide-type surfactant containing a hydrocarbon group which may have a substituent group except for phenyl, and a polyoxyethylene group in which a ratio (m/n) of a number (m) of carbon atoms contained in the hydrocarbon group to a number (n) of oxyethylene groups contained in the polyoxyethylene group is in the range of 1 to 1.5, the number (m) of carbon atoms is not less than 9, and the number (n) of oxyethylene groups is not less than 7; (B) water; and (C) alkali or an organic acid. The cleaning solution highly clean the surface of the substrate without occurrence of corrosion by removing fine particles and organic contaminants which are adhered onto the surface of the substrate.

Abstract: A substrate surface cleaning liquid medium and a cleaning method using the cleaning liquid medium are capable of removing finely particulate contaminants more efficiently than conventional techniques from substrates for devices in the production of semiconductor devices, display devices, etc., which cleaning liquid medium contains the following ingredients (A), (B), (C), and (D), has a pH of 9 or higher, and a content of ingredient (C) of 0.01 to 4% by weight: (A) an ethylene oxide addition type surfactant which has an optionally substituted hydrocarbon group and a polyoxyethylene group in the same molecular structure and in which the ratio of the number of carbon atoms contained in the hydrocarbon group (m) to the number of oxyethylene groups in the polyoxyethylene group (n), m/n, is m/n?1.5, (B) an alkali ingredient, (C) hydrogen peroxide, and (D) water.

Abstract: A substrate surface cleaning liquid medium and a cleaning method using the cleaning liquid medium are capable of removing finely particulate contaminants more efficiently than conventional techniques from substrates for devices in the production of semiconductor devices, display devices, etc., which cleaning liquid medium contains the following ingredients (A), (B), (C), and (D), has a pH of 9 or higher, and a content of ingredient (C) of 0.01 to 4% by weight: (A) an ethylene oxide addition type surfactant which has an optionally substituted hydrocarbon group and a polyoxyethylene group in the same molecular structure and in which the ratio of the number of carbon atoms contained in the hydrocarbon group (m) to the number of oxyethylene groups in the polyoxyethylene group (n), m/n, is m/n?1.5, (B) an alkali ingredient, (C) hydrogen peroxide, and (D) water.

Abstract: To provide a cleaning solution for a substrate for a semiconductor device capable of removing particle contamination, organic contamination and metal contamination at the same time without corroding the substrate surface, and further having good water rinsability and capable of making the substrate surface highly clean in a short time, and a cleaning method. A cleaning solution for a substrate for a semiconductor device, which comprises an organic acid as component (a), an organic alkaline component as component (b), a surfactant as component (c) and water as component (d) and which has a pH of at least 1.5 and less than 6.5. A method for cleaning a substrate for a semiconductor device, which comprises cleaning a substrate for a semiconductor device having a Cu film and a low dielectric constant insulating film on its surface and having CMP treatment applied thereto, by means of the above cleaning solution for a substrate for a semiconductor device.

Abstract: A highly efficient method for cleaning a substrate, whereby in the cleaning of the substrate, {circle around (1)} in a short time, {circle around (2)} both particle contaminants and metal contaminants can be removed, and {circle around (3)} a problem associated therewith, such as re-deposition of contaminants or a dimensional change due to etching, can be remarkably reduced, and which has the following characteristics. A method for cleaning a surface of a substrate, which comprises at least the following steps (1) and (2), wherein the step (2) is carried out after carrying out the step (1): Step (1): A cleaning step of cleaning the surface of the substrate with an alkaline cleaning agent containing a completing agent, and Step (2): A cleaning step employing a cleaning agent having a hydrofluoric acid content C (wt %) of from 0.03 to 3 wt %, wherein the cleaning time t (seconds) of the substrate with said cleaning agent is at most 45 seconds, and C and t satisfy the relationship of 0.25?tC1.29?5.

Abstract: A cleaning solution for cleaning a substrate for semiconductor devices and a cleaning method using the said cleaning solution, which comprises at least the following components (A), (B) and (C): (A) an ethyleneoxide-type surfactant containing a hydrocarbon group which may have a substituent group except for phenyl, and a polyoxyethylene group in which a ratio (m/n) of a number (m) of carbon atoms contained in the hydrocarbon group to a number (n) of oxyethylene groups contained in the polyoxyethylene group is in the range of 1 to 1.5, the number (m) of carbon atoms is not less than 9, and the number (n) of oxyethylene groups is not less than 7; (B) water; and (C) alkali or an organic acid. The cleaning solution highly clean the surface of the substrate without occurrence of corrosion by removing fine particles and organic contaminants which are adhered onto the surface of the substrate.

Abstract: A highly efficient method for cleaning a substrate, whereby in the cleaning of the substrate, {circle over (1)} in a short time, {circle over (2)} both particle contaminants and metal contaminants can be removed, and {circle over (3)} a problem associated therewith, such as re-deposition of contaminants or a dimensional change due to etching, can be remarkably reduced, and which has the following characteristics.

Abstract: A substrate surface cleaning liquid medium and a cleaning method using the cleaning liquid medium are capable of removing finely particulate contaminants more efficiently than conventional techniques from substrates for devices in the production of semiconductor devices, display devices, etc., which cleaning liquid medium contains the following ingredients (A), (B), (C), and (D), has a pH of 9 or higher, and a content of ingredient (C) of 0.