Abstract: A polishing composition capable of suppressing surface defects and reducing haze is provided. The polishing composition includes: abrasives; at least one water-soluble polymer selected from vinyl alcohol-based resins having a 1,2-diol structural unit; a polyalcohol; and an alkali compound. Preferably, the polishing composition further includes a non-ionic surfactant.

Abstract: The present invention is a polishing pad formed by foamed polyurethane, with a content of S phase in the foamed polyurethane, as determined by pulsed NMR measurement at 25° C., exceeding 70%.

Abstract: A polishing composition that can suppress surface defects and reduce haze is provided. A polishing composition includes: abrasives; at least one water-soluble polymer selected from vinyl alcohol-based resins having a 1,2-diol structural unit; and an alkali compound, where an average particle size of particles in the polishing composition measured by dynamic light scattering is not more than 55 nm. Preferably, the polishing composition further includes a non-ionic surfactant. Preferably, the polishing composition further includes a polyalcohol.

Abstract: A composition for polishing silicon nitride according to the present invention includes colloidal silica, a polishing aid including a phosphoric acid compound and a sulfuric acid compound. By further including an oxidizing agent, a first selectivity representing the ratio of a polishing speed for a metal layer to a polishing speed for a silicon nitride layer and a second selectivity representing the ratio of a polishing speed for an oxide insulating layer to a polishing speed for a silicon nitride are controlled.

Abstract: The present invention provides a polishing roll capable of, for example, realizing three-dimensional polishing of hard materials such as sapphire glass at a high removal amount. The polishing roll is a cylindrical polishing roll capable of rotating about a central axis, characterized in that the polishing roll includes a core part serving as a central axis to which torque is applied, an intermediate part having a cross-section concentric with the core part, and a polishing part disposed on the outer peripheral surface of the intermediate part, and the intermediate part is made of a cushion material that is softer than the polishing part.

Abstract: Proposed is a polishing composition including hydroxyethyl cellulose, water and abrasive grains, wherein the hydroxyethyl cellulose has a molecular weight of 500,000 or more and 1,500,000 or less, and the proportion of the hydroxyethyl cellulose adsorbed to the abrasive grains is 30% or more and 90% or less.

Abstract: Provided is a polishing composition that does not contain abrasives and that is used for polishing a silicon wafer, the polishing composition including a pH buffer, a polishing accelerator, a water-soluble polymer, and a block-type compound. By polishing a silicon wafer by using the polishing composition, a polishing speed of greater than 0.1 ?m/min can be achieved.

Abstract: Proposed is a method for polishing a semiconductor substrate including an intermediate polishing step of polishing in such a way that the number of surface defects having heights of less than 3 nm is 45% or more of the total number of the surface defects on the surface of a semiconductor substrate, and a final polishing step of finish-polishing the semiconductor substrate after the intermediate polishing step.

Abstract: A polishing composition that can suppress surface defects and reduce haze is provided. A polishing composition includes: abrasives; at least one water-soluble polymer selected from vinyl alcohol-based resins having a 1,2-diol structural unit; and an alkali compound, where an average particle size of particles in the polishing composition measured by dynamic light scattering is not more than 55 nm. Preferably, the polishing composition further includes a non-ionic surfactant. Preferably, the polishing composition further includes a polyalcohol.

Abstract: Proposed is a polishing composition including hydroxyethyl cellulose, water and abrasive grains, wherein the hydroxyethyl cellulose has a molecular weight of 500,000 or more and 1,500,000 or less, and the mass ratio of the hydroxyethyl cellulose to the abrasive grains is 0.0075 or more and 0.025 or less.

Abstract: Proposed is a polishing composition including hydroxyethyl cellulose, water and abrasive grains, wherein the hydroxyethyl cellulose has a molecular weight of 500,000 or more and 1,500,000 or less, and the proportion of the hydroxyethyl cellulose adsorbed to the abrasive grains is 30% or more and 90% or less.

Abstract: Proposed is a method for polishing a semiconductor substrate including an intermediate polishing step of polishing in such a way that the number of surface defects having heights of less than 3 nm is 45% or more of the total number of the surface defects on the surface of a semiconductor substrate, and a final polishing step of finish-polishing the semiconductor substrate after the intermediate polishing step.

Abstract: The present invention relates to a polishing composition including water and silica, wherein the silica has a BET specific surface area of 30 m2/g or more and an NMR specific surface area of 10 m2/g or more, and a polishing method using the polishing composition. The polishing composition of the present invention adopts silica having the BET specific surface area falling within the above-described range, and additionally having the NMR specific surface area falling within a specific range, and consequently attains a high polishing rate, and can maintain the polishing rate even when used for a long time.

Abstract: Proposed is a polishing composition including hydroxyethyl cellulose, water and abrasive grains, wherein the hydroxyethyl cellulose has a molecular weight of 500,000 or more and 1,500,000 or less, and the mass ratio of the hydroxyethyl cellulose to the abrasive grains is 0.0075 or more and 0.025 or less.

Abstract: A method of polishing a sapphire substrate is provided, comprising: providing a substrate having an exposed sapphire surface; providing a chemical mechanical polishing slurry, wherein the chemical mechanical polishing slurry comprises, as initial components: colloidal silica abrasive, wherein the colloidal silica abrasive has a negative surface charge; and, wherein the colloidal silica abrasive exhibits a multimodal particle size distribution with a first particle size maximum between 2 and 25 nm; and, a second particle size maximum between 75 and 200 nm; optionally, a biocide; optionally, a nonionic defoaming agent; and, optionally, a pH adjuster. A chemical mechanical polishing composition for polishing an exposed sapphire surface is also provided.

Abstract: A polishing composition of the present invention contains: a polyvinyl alcohol resin having a 1,2-diol structure in its side chain, the polyvinyl alcohol resin being a copolymer of a monomer represented by Formula (1) below and a vinyl ester monomer; an organic acid; and abrasive grains whose surfaces are chemically modified so as to have a minus zeta potential on the surfaces in a solution with a pH of 2.0 or more and to have no isoelectric point: (where R1 to R6 each independently denote a hydrogen atom or an organic group, X denotes a single bond or a linking group, and R7 and R8 each independently denote a hydrogen atom or R9—CO— (where R9 denotes an alkyl group)).

Abstract: The polishing composition of the present invention is a polishing composition for polishing a tungsten-containing metal layer formed on an insulating layer, the polishing composition comprising: abrasive grains; one or more halogen acids selected from the group consisting of iodic acid, iodous acid, and hypoiodous acid; a strong acid; a hydrogen-ion-supplying agent; and water.

Abstract: A polishing pad has structural parts embedded therein; sensors, a memory for storing detected information obtained by the sensors, and a communication unit driven by a power supply unit to communicate with outside in a non-contact manner. The polishing pad and a communication unit configured to communicate with the communication unit of the polishing pad in a non-contact manner constitute a polishing information management system. The polishing pad and a communication unit configured to transmit and receive the information to and from the communication unit of the polishing pad in a non-contact manner constitute a polishing apparatus.

Abstract: A chemical mechanical polishing composition for polishing silicon wafers is provided, containing: water, optionally, an abrasive; a cation according to formula (I); piperazine or a piperazine derivative according to formula (II); and, a quaternary ammonium compound; wherein the chemical mechanical polishing composition exhibits a pH of 9 to 12. Also provided are methods of making and using the chemical mechanical polishing composition.

Abstract: A method for polishing a silicon wafer is provided, comprising: providing a silicon wafer; providing a polishing pad having a polishing layer which is the reaction product of raw material ingredients, including: a polyfunctional isocyanate; and, a curative package; wherein the curative package contains an amine initiated polyol curative and a high molecular weight polyol curative; wherein the polishing layer exhibits a density of greater than 0.4 g/cm3; a Shore D hardness of 5 to 40; an elongation to break of 100 to 450%; and, a cut rate of 25 to 150 ?m/hr; and, wherein the polishing layer has a polishing surface adapted for polishing the silicon wafer; and, creating dynamic contact between the polishing surface and the silicon wafer.