Abstract: Provided is a polishing composition that can reduce increase in temperature of a polishing pad during polishing. The polishing composition provided by the present invention contains water, oxidant A selected from compounds other than peroxide, a first metal salt selected from alkaline-earth metal salts, and a second metal salt selected from salts each of which has a cation of a metal belonging to groups 3 to 16 in the periodic table, and an anion.

Abstract: Provided are a polishing method and a polishing composition that are applied to polishing of silicon carbide and allows reduction of rise in pH of the polishing composition and increase in pad temperature during polishing. Provided is a method of polishing an object to be polished having a surface formed of silicon carbide. The method includes steps of preparing a polishing composition, and supplying the polishing composition to the object to be polished and polishing the object to be polished. The polishing composition contains permanganate, a metal salt A, and water. The metal salt A is a salt of a metal cation having a pKa of less than 7.0 in form of a hydrated metal ion, and an anion.

Abstract: Provided is a polishing composition containing an abrasive, permanganate, an aluminum salt, and water. In the polishing composition, a relation of a content W1 [% by weight] of the abrasive, a concentration C1 [mM] of the permanganate, and a concentration C2 [mM] of the aluminum salt satisfies at least one condition of the following conditions [A], [B], and [C]: satisfying both of 500?(C1/W1) and 0.04?(C2/C1);??[A] satisfying both of 200?(C1/?(W1)) and 8?C2; and??[B] satisfying both of 500?(C1/W1) and 8?C2.

Abstract: Provided are a polishing method and a polishing composition that are applied to polishing of silicon carbide and allows reduction of rise in pH of the polishing composition and increase in pad temperature during polishing Provided is a method of polishing an object to be polished having a surface formed of silicon carbide. The method includes steps of preparing a polishing composition, and supplying the polishing composition to the object to be polished and polishing the object to be polished. The polishing composition contains permanganate, a metal salt A, and water. The metal salt A is a salt of a metal cation having a pKa of less than 7.0 in form of a hydrated metal ion, and an anion.

Abstract: Provided are a polishing method that can be commonly applied to different types of silicon substrates varying in resistivity as well as a polishing composition set used in the polishing method. The silicon substrate polishing method provided by this invention comprises supplying a first polishing slurry S1 and a second polishing slurry S2 to a silicon substrate to be polished, switching them in this order midway through polishing the silicon substrate. The first polishing slurry S1 comprises an abrasive A1 and a water-soluble polymer P1. The polishing removal rate of the first polishing slurry S1 is higher than that of the second polishing slurry S2.

Abstract: Provided is a polishing method that can efficiently achieve a surface of a super-hard material from which latent defects are precisely eliminated. The polishing method provided by the present invention is used for polishing a substrate made of a material having a Vickers hardness of 1500 Hv or higher. The polishing method includes: a step of carrying out preliminary polishing on the substrate using a preliminary polishing composition; and a step of carrying out final polishing on the preliminarily polished substrate using a final polishing composition. Here, a surface roughness RaPRE of the preliminarily polished substrate measured by an AFM is 0.1 nm or less, and a polishing removal in the final polishing step is 0.3 µm or more.

Abstract: Provided is a polishing composition that allows yielding a smooth surface comparable with or more than a surface produced by an abrasive-free polishing composition, and can be preferably used under both condition of low pressure and high pressure, in polishing of a hardness material. The polishing composition is a polishing composition for polishing a material having a Vickers hardness of 1500 Hv or more. The polishing composition contains particles and an oxidant, and the content of the particles is less than 400 ppm.

Abstract: According to the present invention, there is provided a polishing composition used for polishing a gallium compound-based semiconductor substrate. The polishing composition includes a silica abrasive; a compound Cpho having a phosphoric acid group or a phosphonic acid group; and water. In addition, according to the present invention, there is provided a method for polishing a gallium compound-based semiconductor substrate. The method includes a first polishing step in which polishing is performed using a slurry S1 containing an abrasive A1 and water; and a second polishing step in which polishing is performed using a slurry S2 containing an abrasive A2 and water, in this order. The abrasive A2 contains a silica abrasive. The slurry S2 further contains a compound Cpho having a phosphoric acid group or a phosphonic acid group.

Abstract: Provided is a polishing composition that can reduce the friction force against an object to be polished while maintaining a favorable polishing removal rate. The polishing composition provided by the present invention contains water, an abrasive, and a composite metal oxide as an oxidant. The polishing composition further contains an anionic polymer. In some preferred embodiments, the polishing composition contains a permanganate as the composite metal oxide. The polishing composition is suitable for polishing a material having a Vickers hardness of 1500 Hv or higher.

Abstract: According to the present invention, there is provided a polishing composition used for polishing a gallium compound-based semiconductor substrate. The polishing composition includes a silica abrasive; a compound Cpho having a phosphoric acid group or a phosphonic acid group; and water. In addition, according to the present invention, there is provided a method for polishing a gallium compound-based semiconductor substrate. The method includes a first polishing step in which polishing is performed using a slurry S1 containing an abrasive A1 and water; and a second polishing step in which polishing is performed using a slurry S2 containing an abrasive A2 and water, in this order. The abrasive A2 contains a silica abrasive. The slurry S2 further contains a compound Cpho having a phosphoric acid group or a phosphonic acid group.

Abstract: Provided are a polishing method that can be commonly applied to different types of silicon substrates varying in resistivity as well as a polishing composition set used in the polishing method. The silicon substrate polishing method provided by this invention comprises supplying a first polishing slurry S1 and a second polishing slurry S2 to a silicon substrate to be polished, switching them in this order midway through polishing the silicon substrate. The first polishing slurry S1 comprises an abrasive A1 and a water-soluble polymer P1. The polishing removal rate of the first polishing slurry S1 is higher than that of the second polishing slurry S2.

Abstract: [Problem] To provide a method for producing a polished object, which can remarkably reduce a haze level on a surface of the object to be polished while defects are significantly reduced.

Abstract: Provided is a polishing composition, which comprises abrasive grains, a water-soluble polymer, an aggregation inhibitor and water. The ratio R1/R2 is 1.3 or less, where R1 represents the average particle diameter of the particles present in the polishing composition and R2 represents the average particle diameter of the abrasive grains when the abrasive grains are dispersed in water at the same concentration as that of the abrasive grains in the polishing composition. The polishing composition can be used mainly for polishing the surface of a silicon substrate.

Abstract: [Problem] To provide a method for producing a polished object, which can remarkably reduce a haze level on a surface of the object to be polished while defects are significantly reduced.

Abstract: A polishing composition is composed of a filtered diluted liquid obtained through an undiluted liquid-preparing step, an undiluted liquid-filtering step, a diluting step, and a diluted liquid-filtering step. In the undiluted liquid-preparing step, an undiluted liquid is prepared by mixing raw materials for the polishing composition. In the undiluted liquid-filtering step, the undiluted liquid is filtered. In the diluting step, the filtered undiluted liquid is diluted to obtain a diluted liquid. In the diluted liquid-filtering step, the diluted liquid is filtered. The polishing composition is used, for example, for polishing a silicon substrate material to produce a silicon substrate.

Abstract: A polishing composition is obtained through diluting an undiluted liquid containing abrasive grains. When R1 is defined as an average secondary particle diameter of the abrasive grains in the undiluted liquid and R2 is defined as an average secondary particle diameter of the abrasive grains in the polishing composition, the ratio R2/R1 is 1.2 or less. The polishing composition is used for polishing a silicon substrate material to produce a silicon substrate.

Abstract: A polishing composition is composed of a filtered diluted liquid obtained through an undiluted liquid-preparing step, an undiluted liquid-filtering step, a diluting step, and a diluted liquid-filtering step. In the undiluted liquid-preparing step, an undiluted liquid is prepared by mixing raw materials for the polishing composition. In the undiluted liquid-filtering step, the undiluted liquid is filtered. In the diluting step, the filtered undiluted liquid is diluted to obtain a diluted liquid. In the diluted liquid-filtering step, the diluted liquid is filtered. The polishing composition is used, for example, for polishing a silicon substrate material to produce a silicon substrate.

Abstract: A polishing composition contains: silicon dioxide having an average primary particle diameter of 40 nm or more as calculated from the specific surface area determined by the BET method; a nitrogen-containing water-soluble polymer; and a basic compound. The value of B/A is 1 or more and less than 7,000 and the value of C/A is 5,000 or more and less than 1,500,000 when in one liter of the polishing composition, A is defined as the number of silicon dioxide, B is defined as the number of monomer units of the nitrogen-containing water-soluble polymer, and C is defined as the number of molecules of the basic compound. Alternatively, the value of B/A is 1 or more and less than 7,000 and the value of C/A is 5,000 or more and less than 100,000. The polishing composition is used, for example, for polishing a semiconductor substrate.

Abstract: Provided is a polishing composition, which comprises abrasive grains, a water-soluble polymer, an aggregation inhibitor and water. The ratio R1/R2 is 1.3 or less, where R1 represents the average particle diameter of the particles present in the polishing composition and R2 represents the average particle diameter of the abrasive grains when the abrasive grains are dispersed in water at the same concentration as that of the abrasive grains in the polishing composition. The polishing composition can be used mainly for polishing the surface of a silicon substrate.

Abstract: A polishing composition contains an abrasive such as colloidal silica, at least one kind of compound selected from imidazole and an imidazole derivative, and water. The polishing composition preferably further contains an alkali compound, a water-soluble polymer, or a chelating agent. The polishing composition is suitable for use in polishing an edge of an object such as a semiconductor substrate.