Shallow Trench Isolation (STI) chemical mechanical planarization (CMP) polishing compositions, methods and systems of use therefore are provided. The CMP polishing composition comprises abrasives of ceria coated inorganic metal oxide particles, such as ceria-coated silica; and dual chemical additives for providing the tunable oxide film removal rates and tunable SiN film removal rates. Chemical additives comprise at least one nitrogen-containing aromatic heterocyclic compound and at least one non-ionic organic molecule having more than one hydroxyl functional group organic.

Shallow Trench Isolation (STI) chemical mechanical planarization (CMP) polishing compositions, methods and systems of use therefore are provided. The CMP polishing composition comprises abrasives of ceria coated inorganic metal oxide particles, such as ceria-coated silica; and dual chemical additives for providing the tunable oxide film removal rates and tunable SiN film removal rates. Chemical additives comprise at least one nitrogen-containing aromatic heterocyclic compound and at least one non-ionic organic molecule having more than one hydroxyl functional group organic.

Described herein are compositions and methods that impart a hydrophobic finish to surfaces, such as, for example, automotive surfaces. The compositions comprise an amino functional silicone emulsion, an amphoteric surfactant, and, a non-ionic surfactant.

A method for treating a surface of a metallic part in particular of a turbomachine includes a step of shot-peening a surface of the metallic part using metallic beads and a step of cleaning the surface of the metallic part after the shot peening. The cleaning comprises step includes applying a magnetic cleaning paste to the surface of the metallic part in such a way as to remove any residues of metallic beads.

Provided is a polishing composition that is produced at low cost and can impart high-grade mirror finishing to ceramic. The polishing composition includes abrasives, has a pH of 6.0 or more to 9.0 or less, and is used for polishing ceramic.

This disclosure relates to a polishing composition that includes at least one abrasive; at least one nitride removal rate reducing agent, an acid or a base; and water. The at least one nitride removal rate reduce agent can include a hydrophobic portion containing a C.sub.4 to C.sub.40 hydrocarbon group; and a hydrophilic portion containing at least one group selected from the group consisting of a sulfinite group, a sulfate group, a sulfonate group, a carboxylate group, a phosphate group, and a phosphonate group; in which the hydrophobic portion and the hydrophilic portion are separated by zero to ten alkylene oxide groups. The polishing composition can have a pH of from about 2 to about 6.5.

This disclosure relates to a polishing composition that includes at least one abrasive; at least one nitride removal rate reducing agent, an acid or a base; and water. The at least one nitride removal rate reduce agent can include a hydrophobic portion containing a C.sub.4 to C.sub.40 hydrocarbon group; and a hydrophilic portion containing at least one group selected from the group consisting of a sulfinite group, a sulfate group, a sulfonate group, a carboxylate group, a phosphate group, and a phosphonate group; in which the hydrophobic portion and the hydrophilic portion are separated by zero to ten alkylene oxide groups. The polishing composition can have a pH of from about 2 to about 6.5.

Methods for fabricating a chemical-mechanical polishing composition include growing colloidal silica abrasive particles in a liquid including an aminosilane compound such that the aminosilane compound becomes incorporated in the abrasive particles. A dispersion including such colloidal silica abrasive particles may be further processed to obtain a chemical-mechanical polishing composition including colloidal silica particles having the aminosilane compound incorporated therein.

Methods for fabricating a chemical-mechanical polishing composition include growing colloidal silica abrasive particles in a liquid including an aminosilane compound such that the aminosilane compound becomes incorporated in the abrasive particles. A dispersion including such colloidal silica abrasive particles may be further processed to obtain a chemical-mechanical polishing composition including colloidal silica particles having the aminosilane compound incorporated therein.

The invention provides a chemical-mechanical polishing composition comprising: (a) colloidal silica particles that are surface modified with metal ions selected from Mg, Ca, Al, B, Be, and combinations thereof, and wherein the colloidal silica particles have a surface hydroxyl group density of from about 1.5 hydroxyls per nm.sup.2 to about 8 hydroxyls per nm.sup.2 of a surface area of the particles, (b) an anionic surfactant, (c) a buffering agent, and (d) water, wherein the polishing composition has a pH of about 2 to about 7, and wherein the polishing composition is substantially free of an oxidizing agent that oxidizes a metal. The invention further provides a method of chemically-mechanically polishing a substrate with the inventive chemical-mechanical polishing composition. Typically, the substrate contains silicon nitride, silicon oxide, and/or polysilicon.