Abstract: A polishing pad, a polishing laminated pad and a semiconductor wafer polishing method all of which prevent a leak of slurry from the gap between a polishing substrate and a reduction in polishing efficiency caused by a scratched and a window member and enable the optical detection of the polishing end point to be carried out efficiently.

Abstract: A polishing pad for chemical mechanical polishing, which has an excellent removal rate and is capable of polishing for providing excellent planarity. This polishing pad comprises 70 to 99.9 mass % of (A) a crosslinked diene elastomer and 0.1 to 30 mass % of (B) a polymer having an acid anhydride structure based on 100 mass % of the total of the above components (A) and (B) and has a specific gravity of 0.9 to 1.2.

Abstract: An abrasive pad capable of transmitting light for end point detection without reducing polishing efficiency in the polishing of a semiconductor wafer using an optical end-point detection device, method of manufacturing the abrasive pad, a metal mold for manufacturing the abrasive pad, and a method of polishing a semiconductor wafer.

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: An aqueous dispersion for chemical mechanical polishing that is hard to putrefy, scarcely causes scratches, causes only small dishing and is suitable for used in a micro isolating step or a planarizing step of an inter layer dielectric in production of semiconductor devices, which dispersion comprises ceria particles, a preservative composed of a compound having a heterocyclic structure containing a nitrogen atom and a sulfur atom in the ring, such as an isothiazolone compound, and an organic component such as organic abrasive grains composed of resin particles, a dispersing agent composed of a water-soluble polymer having a specific molecular weight or the like, a surfactant and/or an organic acid or a salt thereof contained in an aqueous medium, wherein the ceria particles, preservative and organic component are contained in proportions of 0.1 to 20% by mass, 0.001 to 0.2% by mass and 0.

Abstract: The invention provides an aqueous dispersion for chemical mechanical polishing, by which scratches are reduced even for an article to be polished having a dielectrics low in mechanical strength, both copper film and barrier metal film can be polished with high efficiency, and a sufficiently planarized finished surface with high precision can be provided without overpolishing the dielectrics, and a production process of a semiconductor device.

Abstract: The invention provides an aqueous dispersion for chemical mechanical polishing that can limit scratches of a specific size to a specific number, even with interlayer insulating films with small elastic moduli (silsesquioxane, fluorine-containing SiO2, polyimide-based resins, and the like.). When using the aqueous dispersion for chemical mechanical polishing of an interlayer insulating film with an elastic modulus of no greater than 20 GPa as measured by the nanoindentation method, the number of scratches with a maximum length of 1 &mgr;m or greater is an average of no more than 5 per unit area of 0.01 mm2 of the polishing surface. An aqueous dispersion for CMP or an aqueous dispersion for interlayer insulating film CMP according to another aspect of the invention contains a scratch inhibitor agent and an abrasive. The scratch inhibitor may be biphenol, bipyridyl, 2-vinylpyridine, salicylaldoxime, o-phenylenediamine, catechol, 7-hydroxy-5-methyl-1,3,4-triazaindolizine, and the like.

Abstract: Provided are an aqueous dispersion for chemical mechanical polishing, which planarizes a surface to be polished and has high shelf stability, a chemical mechanical polishing process excellent in selectivity when surfaces of different materials are polished, and a production process of a semiconductor device.

Abstract: A polishing pad of the present invention contains a water-insoluble matrix material comprising a crosslinked polymer such as a crosslinked 1,2-polybutadiene and water-soluble particles dispersed in the material, such as saccharides. The solubility of the water-soluble particles in water is 0.1 to 10 wt % at 25° C., and the amount of water-soluble particles eluted from the pad when the pad is immersed in water is 0.05 to 50 wt % at 25° C. Further, in the polishing pad of the present invention, the solubility of the water-soluble particles in water is 0.1 to 10 wt % at 25° C. at a pH of 3 to 11, and solubility thereof in water at 25° C. at a pH of 3 to 11 is within ±50% of solubility thereof in water at 25° C. at a pH of 7. In addition, the water-soluble particles contain an amino group, an epoxy group, an isocyanurate group, and the like.

Abstract: An object of the present invention is to provide a composition for washing a polishing pad which removes a water-insoluble compound which was separated from a surface to be polished during polishing, formed at least on the surface of a polishing pad, and comprised a metal ion ionized, and a method for washing a polishing pad using the same. The composition for washing a polishing pad of the present invention is obtained by, in the case a water-insoluble compound is a copper quinaldinic acid complex, blending ammonia as a component for rendering the water-insoluble compound water-soluble and glycine as a water-soluble complex forming component for forming a water-soluble complex with a copper ion, and stirring them. In addition, in a method for washing a polishing pad using the composition for washing a polishing pad, a polishing pad can be washed effectively, the productivity can be improved and, further, consumption of a polishing pad can be inhibited.

Abstract: An objective of the present invention is to provide a composition for polishing pad that is excellent in formability, abrasion resistance and small in temperature dependence of Young's modulus and a polishing pad therewith. The composition for polishing pad of the present invention comprises a water-insoluble matrix and a water-soluble particle dispersed in the water-insoluble matrix. The water-insoluble matrix contains a crosslinked ethylene-vinyl acetate copolymer and/or a crosslinked 1,2-polybutadiene and each of these is contained by a prescribed amount against the total of the water-insoluble matrix.

Abstract: The present invention intends to provide a polishing pad and a multi-layer polishing pad that can particularly effectively suppress scratch from occurring. The polishing pad of the invention comprises at least one part selected from a groove (a) having at least one kind of shape selected from annular, lattice-like and spiral form on a polishing surface side, a concave portion (b) and a through hole (c). In the above, surface roughness of an inner surface of the part is 20 &mgr;m or less and the polishing pad is used for chemical mechanical polishing.

Abstract: The present invention provides an aqueous dispersion for chemical mechanical polishing suitable for polishing of copper, which has a high polishing speed and a low erosion rate with overpolishing. The aqueous dispersion for chemical mechanical polishing of the invention contains a compound having a heterocycle, a surfactant and an oxidizing agent, wherein the compound having a heterocycle and the surfactant are in a weight ratio of 1:10 to 1:0.03. The aqueous dispersion may also contain abrasive particle. The compound having a heterocycle is preferably quinaldic acid, benzotriazole or the like. The surfactant is preferably a sulfonic acid salt such as potassium dodecylbenzenesulfonate or ammonium dodecylbenzenesulfonate, and the oxidizing agent is preferably ammonium persulfate, hydrogen peroxide or the like. The abrasive particle used may be inorganic particle such as colloidal silica, an organic particle such as polymer particle, or an organic/inorganic composite particle comprising a combination thereof.

Abstract: The invention provides an aqueous dispersion for chemical mechanical polishing that is hard to putrefy, scarcely causes scratches, causes only small dishing and is suitable for used in a micro isolating step or a planarizing step of an inter layer dielectric in production of semiconductor devices.

Abstract: The object of the present invention is to provide a process for chemical mechanical polishing of semiconductor substrate that is particularly useful for chemical mechanical polishing a wafer having a wiring pattern and an insulating layer having a low dielectric constant is formed between wiring patterns, interlayers in the case of a multi-layer wiring and the like in the process of producing a semiconductor device, and an aqueous dispersion for chemical mechanical polishing which is used in this process.

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: The present invention relates to a method for producing a composited particle in which an inorganic particle is not released, a composited particle produced by this method, and an aqueous dispersion for CMP containing this composited particle. The method for producing a composited particle of the present invention comprises forming a preliminary particle by adhering one or more types of inorganic particles on at least a part of the surface area of a polymer particle, then, polycondensing at least one selected from among organosilicon compounds and organometal compounds in the presence of the above-mentioned preliminary particle.

Abstract: There are provided aqueous dispersions for CMP that can efficiently polish both copper films and barrier metal films, which can give sufficient flattened finished surfaces without excessive polishing of insulating films, as well as a CMP process employing the aqueous dispersions. The aqueous dispersions for CMP according to the invention are characterized in that for polishing of a copper film, barrier metal film and insulating film under the same conditions, the polishing rate ratio (RCu/RBM) of the copper film (RCu) and the barrier metal film (RBM) is such that 0.5≦RCu/RBM≦2, and the polishing rate ratio (RCu/RIn) of the copper film (RCu) and the insulating film (RIn) is such that 0.5≦RCu/RIn≦2.

Abstract: The object of the present invention is to provide an aqueous dispersion for chemical mechanical polishing which can be polished working film for semiconductor devices and which is useful for STI. The aqueous dispersion for chemical mechanical polishing of the invention is characterized by comprising an inorganic abrasive such as silica, ceria and the like, and organic particles composed of a resin having anionic group such as carboxyl group into the molecular chains. The removal rate for silicon oxide film is at least 5 times, particularly 10 times the removal rate for silicon nitride film. The aqueous dispersion may also contain an anionic surfactant such as potassium dodecylbenzene sulfonate and the like. And a base may also be included in the aqueous dispersion for adjustment og the pH to further enhance the dispersability, removal rate and selectivity.

Abstract: There is provided an aqueous dispersion for CMP with an excellent balance between chemical etching and mechanical polishing performance. The aqueous dispersion for CMP of the invention is characterized by comprising an abrasive, water and a heteropolyacid. Another aqueous dispersion for CMP according to the invention is characterized by comprising an abrasive, water, a heteropolyacid and an organic acid. Yet another aqueous dispersion for CMP according to the invention is characterized by comprising colloidal silica with a primary particle size of 5-100 nm, water and a heteropolyacid. Preferred for the heteropolyacid is at least one type selected from among silicomolybdic acid, phosphorotungstic acid, silicotungstic acid, phosphoromolybdic acid and silicotungstomolybdic acid. Preferred for the organic acid is at least one selected from among oxalic acid, malonic acid, succinic acid, glutaric acid, adipic acid, maleic acid, fumaric acid, phthalic acid, malic acid, tartaric acid and citric acid.