The present invention provides a unit that can sufficiently remove a residue containing inorganic oxide abrasive grains present on the surface of a polished object to be polished containing silicon oxide. One aspect of the present invention relates to a surface treatment method for reducing a residue containing inorganic oxide abrasive grains on a surface of a polished object to be polished containing silicon oxide using a composition for surface treatment, wherein the composition for surface treatment contains a zeta potential adjusting agent having an sp value of more than 9 and 11 or less and having a negatively charged functional group and a dispersing medium, and the surface treatment method includes negatively controlling a zeta potential of the silicon oxide and controlling a zeta potential of the inorganic oxide abrasive grains to −30 mV or less using the surface treatment composition.

The present invention provides a unit that can sufficiently remove a residue containing inorganic oxide abrasive grains present on the surface of a polished object to be polished containing silicon oxide. One aspect of the present invention relates to a surface treatment method for reducing a residue containing inorganic oxide abrasive grains on a surface of a polished object to be polished containing silicon oxide using a composition for surface treatment, wherein the composition for surface treatment contains a zeta potential adjusting agent having an sp value of more than 9 and 11 or less and having a negatively charged functional group and a dispersing medium, and the surface treatment method includes negatively controlling a zeta potential of the silicon oxide and controlling a zeta potential of the inorganic oxide abrasive grains to −30 mV or less using the surface treatment composition.

A polishing liquid comprises: abrasive grains; a compound having an aromatic heterocycle; an additive (excluding the compound having an aromatic heterocycle); and water, wherein: the abrasive grains include a hydroxide of a tetravalent metal element; the aromatic heterocycle has an endocyclic nitrogen atom not bound to a hydrogen atom; and a charge of the endocyclic nitrogen atom obtained by using the Merz-Kollman method is −0.45 or less.

A polishing liquid comprises: abrasive grains; a compound having an aromatic heterocycle; an additive (excluding the compound having an aromatic heterocycle); and water, wherein: the abrasive grains include a hydroxide of a tetravalent metal element; the aromatic heterocycle has an endocyclic nitrogen atom not bound to a hydrogen atom; and a charge of the endocyclic nitrogen atom obtained by using the Merz-Kollman method is −0.45 or less.

The present invention relates to cerium-based particles and their use as a component of a composition for polishing. The present invention also relates to the method of preparation of the cerium-based particles.

The present invention relates to cerium-based particles and their use as a component of a composition for polishing. The present invention also relates to the method of preparation of the cerium-based particles.

The invention provides a method for polishing or planarizing a substrate of at least one of semiconductor, optical and magnetic substrates. The method includes attaching a polymer-polymer composite polishing pad having a polishing layer to a polishing device. A hydrophilic polymeric matrix forms the polishing layer. Cationic fluoropolymer particles having nitrogen-containing end groups are embedded in the polymeric matrix. A slurry containing anionic particles is applied to the polymer-polymer composite polishing pad and rubbed against the substrate to polish or planarize the substrate with the fluoropolymer particles interacting with the anionic particles to increase polishing removal rate.

The invention provides a method for polishing or planarizing a substrate of at least one of semiconductor, optical and magnetic substrates. The method includes attaching a polymer-polymer composite polishing pad having a polishing layer to a polishing device. A hydrophilic polymeric matrix forms the polishing layer. Cationic fluoropolymer particles having nitrogen-containing end groups are embedded in the polymeric matrix. A slurry containing anionic particles is applied to the polymer-polymer composite polishing pad and rubbed against the substrate to polish or planarize the substrate with the fluoropolymer particles interacting with the anionic particles to increase polishing removal rate.

The disclosure relates to cerium based particles having a rough surface and their use as a component of a polishing composition, especially for chemical mechanical polishing. The cerium based particles have substantially the shape of polyhedrons which have one or more faces with protrusions thereon, said protrusions being integrally formed with said cerium based particles. The present disclosure also relates to the method of preparation of the cerium based particles.

The disclosure relates to cerium based particles having a rough surface and their use as a component of a polishing composition, especially for chemical mechanical polishing. The cerium based particles have substantially the shape of polyhedrons which have one or more faces with protrusions thereon, said protrusions being integrally formed with said cerium based particles. The present disclosure also relates to the method of preparation of the cerium based particles.