Abstract: A cleaning composition for semiconductor components comprises a water-soluble polymer (a) having a specific molecular weight and a compound (b) represented by the following formula (1): NR4OH??(1) wherein each R is independently a hydrogen atom or an alkyl group of 1 to 6 carbon atoms. A process for manufacturing a semiconductor device comprises chemical mechanical polishing a semiconductor component, and cleaning the semiconductor component with the cleaning composition for semiconductor components. The cleaning composition exerts a high cleaning effect on impurities remaining on a polished surface of a semiconductor component after chemical mechanical polishing, and becomes little burden on the environment.

Abstract: A polishing pad comprising a recessed portion in the non-polishing surface. This polishing pad can prevent the surface to be polished of an object from being scratched.

Abstract: There is provided a chemical mechanical polishing pad containing a polishing substrate having a polishing surface and a light-transmitting member fused to the polishing substrate. The sectional form of the light-transmitting member when it is cut with a plane parallel to the polishing surface is elliptic with a value obtained by dividing its long diameter by its short diameter of more than 1. The pad is capable of transmitting end-point detection light without reducing its polishing efficiency in polishing a semiconductor wafer.

Abstract: A chemical mechanical polishing pad having a polishing surface with an arithmetic mean roughness (Ra) of 0.1 to 15 ?m, a 10-point height (Rz) of 40 to 150 ?m, a core roughness depth (Rk) of 12 to 50 ?m and a reduced peak height (Rpk) of 7 to 40 ?m, a manufacturing process thereof and a chemical mechanical polishing method. Even when the chemical mechanical polishing of a large-diameter wafer as an object to be polished is carried out by this pad, a polished surface having excellent in-plane uniformity and flatness can be formed.

Abstract: Disclosed is a chemical mechanical polishing aqueous dispersion comprising (A1) first fumed silica having a specific surface area of not less than 10 m2/g and less than 160 m2/g and an average secondary particle diameter of not less than 170 nm and not more than 250 nm and (A2) second fumed silica having a specific surface area of not less than 160 m2/g and an average secondary particle diameter of not less than 50 nm and less than 170 nm. Also disclosed is a chemical mechanical polishing method using the chemical mechanical polishing aqueous dispersion. According to the chemical mechanical polishing aqueous dispersion and the chemical mechanical polishing method, a chemical mechanical polishing process wherein a barrier metal layer and a cap layer can be efficiently removed by polishing and damage to an insulating film material of a low dielectric constant present in the underlying layer is reduced can be carried out.

Abstract: A chemical mechanical polishing pad comprising a water-insoluble matrix which comprises (A) a styrene polymer and (B) a diene polymer. A method for producing the above chemical mechanical polishing pad, the method comprising the steps of preparing a composition comprising (A) a styrene polymer, (B) a diene polymer and (C) a crosslinking agent, shaping the above composition into a predetermined shape, and heating the composition during or after shaping to cure it. A chemical mechanical polishing process which comprises polishing a surface to be polished of an object to be polished by use of the chemical mechanical polishing pad. According to the present invention, it is possible to provide a chemical mechanical polishing pad which can be suitably applied to polishing of metal film and insulation film, particularly to an STI technique, provides a flat polished surface, can provide a high polishing rate and has a satisfactory useful life.

Abstract: A chemical mechanical polishing aqueous dispersion comprises a component (A) composed of abrasive grains, a component (B) composed of at least one of quinolinecarboxylic acid and pyridinecarboxylic acid, a component (C) composed of an organic acid other than quinolinecarboxylic acid and pyridinecarboxylic acid and a component (D) composed of an oxidizing agent, wherein a mass ratio (WB/WC) of the content (WB) of the component (B) to the content (WC) of the component (C) is not less than 0.01 and less than 2, and the concentration of an ammonia component composed of ammonia and ammonium ion is not more than 0.005 mol/litter. According to the chemical mechanical polishing aqueous dispersion, various layers to be processed can be polished with high efficiency, and a sufficiently planarized polished surface of high precision can be obtained.

Abstract: The cleaning composition which comprises organic polymer particles (A) having a crosslinked structure and a surfactant (B) and is used after chemical mechanical polishing. The cleaning method of a semiconductor substrate is a method for cleaning semiconductor substrate given after chemical mechanical polishing, by the use of the cleaning composition. The process for manufacturing a semiconductor device including a step of chemically and mechanically polishing a semiconductor substrate and a step of cleaning the semiconductor substrate obtained after the chemical mechanical polishing, by the cleaning method.

Abstract: A method of manufacturing a semiconductor device uses a slurry for chemical polishing during the manufacturing process, the slurry containing polishing particles comprising colloidal particles whose primary particles have a diameter ranging from 5 to 30 nm, wherein the degree of association of the primary particles is 5 or less. This slurry for chemical mechanical polishing makes it possible to minimize erosion and scratching whenever a conductive material film is subjected to CMP treatment.

Abstract: A chemical mechanical polishing aqueous dispersion comprises abrasives (A) containing ceria, an anionic water-soluble polymer (B) and a cationic surfactant (C), wherein the amount of the anionic water-soluble polymer (B) is in the range of 60 to 600 parts by mass based on 100 parts by mass of the abrasives (A) containing ceria, and the amount of the cationic surfactant (C) is in the range of 0.1 to 100 ppm based on the whole amount of the chemical mechanical polishing aqueous dispersion.

Abstract: A chemical mechanical polishing pad having a face for polishing an object to be polished, a non-polishing face opposite to the face and a side face for interconnecting these faces and including the pattern of recessed portions which are formed on the non-polishing face and are open to the non-polishing face and not to the side face.

Abstract: A chemical mechanical polishing aqueous dispersion comprises a component (A) composed of abrasive grains, a component (B) composed of at least one of quinolinecarboxylic acid and pyridinecarboxylic acid, a component (C) composed of an organic acid other than quinolinecarboxylic acid and pyridinecarboxylic acid and a component (D) composed of an oxidizing agent, wherein a mass ratio (WB/WC) of the content (WB) of the component (B) to the content (WC) of the component (C) is not less than 0.01 and less than 2, and the concentration of an ammonia component composed of ammonia and ammonium ion is not more than 0.005 mol/litter. According to the chemical mechanical polishing aqueous dispersion, various layers to be processed can be polished with high efficiency, and a sufficiently planarized polished surface of high precision can be obtained.

Abstract: A chemical mechanical polishing pad. The pad contains a water-insoluble matrix and water-soluble particles dispersed in the water-insoluble matrix material and has a polishing surface and a non-polishing surface on a side opposite to the polishing surface. The pad has a light transmitting area which optically communicates from the polishing surface to the non-polishing surface. The non-polishing surface of the light transmitting area has a surface roughness (Ra) of 10 ?m or less.

Abstract: The aqueous dispersion comprising (A) abrasive grains, (B) at least one compound selected from the group consisting of 2-bromo-2-nitro-1,3-propanediol, 2-bromo-2-nitro-1,3-butanediol, 2,2-dibromo-2-nitroethanol, and 2,2-dibromo-3-nitrilopropionamide, and (C) an organic component other than the compounds of component (B is disclosed. The aqueous dispersion has no problem of rotting even if stored or used in a neutral pH region and produces an excellent polished surface with almost no dishing or scratches, when applied particularly to the STI process for manufacturing of semiconductor devices.

Abstract: A polishing pad comprising a recessed portion in the non-polishing surface. This polishing pad can prevent the surface to be polished of an object from being scratched.

Abstract: A processing method of a polishing pad for semiconductor wafer capable of forming a groove, a concave portion, a through hole and the like having a small surface roughness of the inner surface of the groove and the like of 20 &mgr;m or less, a high dimensional accuracy and a uniform cross-sectional shape, and a polishing pad for semiconductor wafer. In the processing method, a surface of a polishing pad including a water-insoluble matrix containing a crosslinked polymer and a water-soluble particle dispersed in the water-insoluble matrix is processed by cutting and the like. Additionally, when a groove and the like are formed, it is preferable that a polishing pad is placed on one surface side of a machining table having a sucking hole, the pad is fixed on the one surface side of the machining table by vacuuming sucking it from the other surface of the machining table, and then a groove and the like are formed.

Abstract: An object of the present invention is to provide a window member for chemical mechanical polishing, which is excellent in antifouling property and transparency and is excellent in anti-scratching and, further, can easily perform detection of a polishing endpoint of the surface of a semiconductor wafer by passing a light for endpoint detection, in polishing of a semiconductor wafer using an optical endpoint detecting apparatus and also to a polishing pad. A window member for chemical mechanical polishing of the present invention is provided with a substrate part (comprised of polyurethane resin and the like), which is transparent partly at least, an antifouling resin layer formed on at least one side of the substrate part. This antifouling resin layer is preferably comprised of a fluorine-based polymer having a polysiloxane segment in a main chain.

Abstract: An object of the invention is to provide a polishing pad having the excellent slurry retaining properties and the large removal rate and a composition for a polishing pad which can form such the polishing pad. A composition for polishing pad of the invention is comprising a water-insoluble matrix material containing a crosslinked polymer and a water-soluble particle dispersed in the water-insoluble matrix material. The elongation remaining after breaking is 100% or less when a test piece comprising the water-insoluble matrix material is broken at 80° C. according to JIS K 6251. A polishing pad of the invention is that at least a part of the polishing pad comprises the composition for polishing pad.

Abstract: A chemical mechanical polishing method of the present invention comprises conducting polishing by the use of a chemical mechanical polishing aqueous dispersion (A) containing abrasive grains and then conducting polishing by the use of a chemical mechanical polishing aqueous composition (B) containing at least one organic compound having a heterocyclic ring in addition to the chemical mechanical polishing aqueous dispersion (A). Also A chemical mechanical polishing agent kit of the present invention comprises the chemical mechanical polishing aqueous dispersion (A) and the chemical mechanical polishing aqueous composition (B). The polishing method and the polishing agent kit can prevent an increase of dishing and corrosion of wiring portion to enhance the yield.

Abstract: A chemical/mechanical polishing method for polishing an object to be polished with an irregular surface, having a substrate with convexities and concavities, a stopper layer formed on the convexities of the substrate, and an embedded insulating layer formed to cover the concavities of the substrate and the stopper layer, wherein the method is characterized comprising a first polishing step of flattening the embedded insulating layer using a slurry (A) which can maintain the polishing speed at 500 Å/min or less and a second polishing step of further polishing the embedded insulating layer to cause the stopper layer on the convexities to be exposed using a slurry (B) which can maintain the polishing speed at 600 Å/min or more. The method is useful for flattening wafers during shallow trench isolation (STI) in manufacturing semiconductor devices.