Composite particles with lower mean particle size and smaller size distribution are obtained through refining treatments. The refined composite particles, such as ceria coated silica particles are used in Chemical Mechanical Planarization (CMP) compositions to offer higher removal rate; very low within wafer (WWNU) for removal rate, low dishing and low defects for polishing oxide films.

A polishing composition eliminating protrusions around a laser mark in wafer polishing processes, the manufacturing method therefor and a polishing method using the composition. The polishing composition including silica particles and water, wherein: the composition includes a tetraalkylammonium ion such that the mass ratio of the ion to SiO.sub.2 of the silica particles is 0.400 to 1.500:1, and the mass ratio of SiO.sub.2 dissolved in the polishing composition to SiO.sub.2 is 0.100 to 1.500:1; the tetraalkylammonium ion is derived from a compound selected from the group made of an alkali silicate, a hydroxide, a carbonate, a sulfate, and a halide while the ion is contained in the polishing composition in 0.2% by mass to 8.0% by mass; and the dissolved SiO.sub.2 is derived from a tetraalkylammonium silicate, a potassium silicate, a sodium silicate, or a mixture of any of these.

A chemical mechanical polishing pad is provided, comprising: a chemical mechanical polishing layer having a polishing surface; wherein the chemical mechanical polishing layer is formed by combining (a) a poly side (P) liquid component, comprising: an amine-carbon dioxide adduct; and, at least one of a polyol, a polyamine and a alcohol amine; and (b) an iso side (I) liquid component, comprising: polyfunctional isocyanate; wherein the chemical mechanical polishing layer has a porosity of ≧10 vol %; wherein the chemical mechanical polishing layer has a Shore D hardness of <40; and, wherein the polishing surface is adapted for polishing a substrate. Methods of making and using the same are also provided.

Provided is a polishing composition which is suitable for polishing an object of polishing having a layer containing a high mobility material that has higher carrier mobility than Si, suppresses excessive dissolution of the layer containing a high mobility material, and is capable of efficient polishing.

Disclosed is a polishing composition that is used for polishing an object of polishing having a layer containing a high mobility material that has higher carrier mobility than Si, the polishing composition including abrasive grains and at least one salt compound selected from the group consisting of a salt of a monovalent acid, a salt of a divalent acid, a salt of a trivalent acid, and a halide salt, in which the electrical conductivity is 1 mS/cm or higher, and a content of hydrogen peroxide is less than 0.1% by mass.

Provided is a polishing composition which is capable of sufficiently suppressing a polishing speed for a low relative permittivity material.

Disclosed is a polishing composition to be used for polishing a material having a relative permittivity of 4 or less, the polishing composition including abrasive grains and an organic compound, the organic compound having a polyoxyalkylene group and an aliphatic hydrocarbon group containing three or more carbon atoms.

The present disclosure describes an apparatus and a method for a chemical mechanical polishing (CMP) process that recycles used slurry as another slurry supply. The apparatus includes a pad on a rotation platen, a first feeder and a second feeder where each of the first and the second feeder is fluidly connected to a respective flow regulator and configured to dispense a first and a second slurry on the pad, a flotation module configured to provide a recycled slurry, and a detection module configured to detect a polishing characteristic associated with polishing the substrate. The flotation module further includes an inlet configured to provide a fluid sprayed from the pad and a tank configured to store chemicals that include a frother and a collector configured to chemically bond with the fluid.

A lubricated mechanical polishing (LMP) process is provided that uses hard nanoparticles of less than 5 nm diameter dispersed in a fluid lubricant as a polishing slurry to produce an ultra-smooth surface on a hard metallic or non-metallic substrate with a sub-nanometer surface roughness substantially less than that produced by silica chemical mechanical polishing.

A polishing solution includes a fluid component and a plurality of conditioning particles. The fluid component includes water, a basic pH adjusting agent, and a polymeric thickening agent. The polymeric thickening agent is present in the fluid component at greater than 0.01 weight percent based on the total weight of the polishing solution.

Provided is a polishing liquid that is used when one surface of a wafer is polished by use of a fixed abrasive grain polishing pad with abrasive grains fixed in the pad, in which an organic salt that exhibits a basic property by hydrolysis and contains no metal and an organic base that contains no metal are dissolved, and no abrasive grains are contained. Preferably, the organic salt includes a strong basic cation and a weak acidic anion, and the organic base contains at least one of ammonia, an amine, and a basic amino acid.

CMP processes, tools and slurries utilize composite particles that include core particles having organosilica particles disposed about the core particles. Using these processes, tools and slurries can enhance removal rates, reduce defectivity and increase cleanability with respect to comparable systems and substrates.