The present invention is a polishing composition, containing zirconium oxide as abrasive grains, the polishing composition having pH of 11.0 or more and less than 12.5, the zirconium oxide having element concentrations of sodium, magnesium, aluminum, potassium, calcium, titanium, chromium, iron, manganese, nickel, copper, zinc, lead, and cobalt of less than 1 ppm each. There can be provided a polishing composition that enables semiconductor substrates having high flatness not only in the inner circumferential portion but also in the outer circumferential portion with little contamination due to metal impurities to be obtained at high productivity.

A removal composition and process for cleaning post-chemical mechanical polishing (CMP) contaminants and ceria particles from a microelectronic device having said particles and contaminants thereon. The composition achieves highly efficacious removal of the ceria particles and CMP contaminant material from the surface of the microelectronic device without compromising the low-k dielectric, silicon nitride, or tungsten-containing materials.

A removal composition and process for cleaning post-chemical mechanical polishing (CMP) contaminants and ceria particles from a microelectronic device having said particles and contaminants thereon. The composition achieves highly efficacious removal of the ceria particles and CMP contaminant material from the surface of the microelectronic device without compromising the low-k dielectric, silicon nitride, or tungsten-containing materials.

Provided is a polishing composition capable of speeding up a mirror polishing in terms of polishing rate and the like, improving the smoothness and the flatness of a wafer surface of a semiconductor wafer after the mirror polishing, enabling mirror finishing with high processing accuracy, and having excellent storage stability.

The polishing composition is for polishing a polishing target including a group III-V compound as a constituent component, and includes colloidal silica, an oxidizing agent, an oxidation accelerator for accelerating the oxidation reaction on the surface of the polishing target by the oxidizing agent, a stabilizer for controlling the accelerating action of the oxidation reaction on the surface of the polishing target by the oxidation accelerator, and water.

Provided is a polishing composition capable of speeding up a mirror polishing in terms of polishing rate and the like, improving the smoothness and the flatness of a wafer surface of a semiconductor wafer after the mirror polishing, enabling mirror finishing with high processing accuracy, and having excellent storage stability.

The polishing composition is for polishing a polishing target including a group III-V compound as a constituent component, and includes colloidal silica, an oxidizing agent, an oxidation accelerator for accelerating the oxidation reaction on the surface of the polishing target by the oxidizing agent, a stabilizer for controlling the accelerating action of the oxidation reaction on the surface of the polishing target by the oxidation accelerator, and water.

A polishing method according to the present invention, includes polishing a polishing object containing a silicon material by using a polishing composition containing abrasive grains, a tri- or more polyvalent hydroxy compound and a dispersing medium and having pH of less than 6.0.

A polishing method according to the present invention, includes polishing a polishing object containing a silicon material by using a polishing composition containing abrasive grains, a tri- or more polyvalent hydroxy compound and a dispersing medium and having pH of less than 6.0.

Embodiments of the present disclosure relate to advanced polishing pads with tunable chemical, material and structural properties, and new methods of manufacturing the same. According to one or more embodiments of the disclosure, it has been discovered that a polishing pad with improved properties may be produced by an additive manufacturing process, such as a three-dimensional (3D) printing process. Embodiments of the present disclosure thus may provide an advanced polishing pad that has discrete features and geometries, formed from at least two different materials that include functional polymers, functional oligomers, reactive diluents, addition polymer precursor compounds, catalysts, and curing agents. For example, the advanced polishing pad may be formed from a plurality of polymeric layers, by the automated sequential deposition of at least one polymer precursor composition followed by at least one curing step, wherein each layer may represent at least one polymer composition, and/or regions of different compositions. Embodiments of the disclosure further provide a polishing pad with polymeric layers that may be interpenetrating polymer networks.

Embodiments of the present disclosure relate to advanced polishing pads with tunable chemical, material and structural properties, and new methods of manufacturing the same. According to one or more embodiments of the disclosure, it has been discovered that a polishing pad with improved properties may be produced by an additive manufacturing process, such as a three-dimensional (3D) printing process. Embodiments of the present disclosure thus may provide an advanced polishing pad that has discrete features and geometries, formed from at least two different materials that include functional polymers, functional oligomers, reactive diluents, addition polymer precursor compounds, catalysts, and curing agents. For example, the advanced polishing pad may be formed from a plurality of polymeric layers, by the automated sequential deposition of at least one polymer precursor composition followed by at least one curing step, wherein each layer may represent at least one polymer composition, and/or regions of different compositions. Embodiments of the disclosure further provide a polishing pad with polymeric layers that may be interpenetrating polymer networks.

A polishing liquid is used for chemical mechanical polishing and includes colloidal silica; and an onium salt containing a cation, in which a content of the onium salt is more than 0.01% by mass, a zeta potential of the colloidal silica measured in a state where the colloidal silica is present in the polishing liquid is 15 mV or more, an electrical conductivity is 10 μS/cm or more, and a pH is 2 to 4.