Abstract: A novel x-ray treatment system utilizes one or more large area flat panel sources of x-ray radiation directed into a target zone. A target substance within the target zone is irradiated with x-ray radiation from the one or more flat panel sources, reducing the biological effects of a contaminant presence therein. The flat panel source comprises an electron source, an electron accelerator, and an electron target medium. The electron source may emit electrons either via field emission or thermionic emission. The x-ray source may operate in transmissive, reflective, or combined transmissive/reflective mode. The use of large area flat panel x-ray sources in the inventive systems allows for decreased installation and operational costs as well as increased efficiency.

Abstract: The inventive method of polishing a silicon-containing dielectric layer involves the use of a chemical-mechanical polishing system comprising (a) an inorganic abrasive, (b) a polishing additive, and (c) a liquid carrier, wherein the polishing composition has a pH of about 4 to about 6. The inventive chemical-mechanical polishing system comprises (a) ceria, (b) a polishing additive, and (c) a liquid carrier, wherein the polishing system has a pH of about 4 to about 6.

Abstract: Provided is a polishing apparatus and polishing pad, intended for polishing a substrate, and designed for improved flow and distribution of a polishing composition to the area of interaction between the pad and substrate. In one aspect, a polishing pad is provided having first and second pluralities of unidirectional pores configured to communicate polishing composition between the top and bottom surfaces of the pad. A cyclic flow of composition is established to continuously renew composition to the area of interaction between the pad and the substrate. In another aspect, a polishing apparatus is provided having a polishing composition transfer region between a polishing pad and a platen. Pores disposed through the pad communicate composition from the transfer region to the top surface. To facilitate directing the composition into the pores, the apparatus includes a plurality of protrusions protruding into the transfer region that are aligned with the pores.

Abstract: The invention is directed to a multi-layer polishing pad for chemical-mechanical polishing comprising a porous polishing layer and a porous bottom layer, wherein the bottom layer is substantially coextensive with the polishing layer, the polishing layer being joined to the bottom layer without the use of an adhesive; the polishing layer having an average surface roughness, Ra, that is greater than the Ra of the bottom layer.

Abstract: The invention is directed to a chemical-mechanical polishing pad substrate comprising a porous material having an average pore size of about 0.01 microns to about 1 micron. The polishing pad substrate has a light transmittance of about 10% or more at at least one wavelength of about 200 nm to about 35,000 nm. The invention is further directed to a polishing pad comprising the polishing pad substrate, a method of polishing comprising the use of the polishing pad substrate, and a chemical-mechanical apparatus comprising the polishing pad substrate.

Abstract: The inventive method comprises chemically-mechanically polishing a substrate with a polishing composition comprising a liquid carrier and sol-gel colloidal silica abrasive particles.

Abstract: The inventive polishing composition comprises an abrasive, an aqueous medium, a surfactant in an amount above its critical micelle concentration, and a hydrophobic surface active compound. The invention also provides a method of using a polishing composition.

Abstract: The inventive method comprises chemically-mechanically polishing a substrate comprising at least one layer of silicon carbide with a polishing composition comprising a liquid carrier, an abrasive, and an oxidizing agent.

Abstract: The inventive method comprises chemically-mechanically polishing a substrate comprising at least one layer of silicon carbide with a polishing composition comprising a liquid carrier, an abrasive, and an oxidizing agent.

Abstract: The invention provides a chemical-mechanical polishing composition for polishing a substrate. The polishing composition comprises an oxidizing agent, calcium ion, an organic carboxylic acid, and water, wherein the polishing composition has a pH of about 1.5 to about 7. The invention further provides a method of chemically-mechanically polishing a substrate with the aforementioned polishing composition.

Abstract: A chemical mechanical polishing slurry comprising an oxidizing agent, a complexing agent, an abrasive, and an optional surfactant, as well as a method for using the chemical mechanical polishing slurry to remove copper alloy, titanium, titanium nitride, tantalum and tantalum nitride containing layers from a substrate. The slurry does not include a separate film-forming agent.

Abstract: The invention provides a method of chemically-mechanically polishing a substrate having at least one feature defined thereon, wherein the feature has at least one dimension with a size W, with a chemical-mechanical polishing composition. The polishing composition comprises particles of an abrasive wherein the particles have a mean particle diameter DM wherein the mean particle diameter of the particles satisfies the equation: DM>W. The invention further provides a method of preparing the chemical-mechanical polishing composition.

Abstract: The invention provides a chemical-mechanical polishing composition for polishing a substrate. The polishing composition comprises an abrasive, an oxidizing agent, an amphiphilic nonionic surfactant, calcium ion or magnesium ion, a corrosion inhibitor for copper, and water, wherein the pH of the polishing composition is about 6 to about 12. The invention further provides a method of chemically-mechanically polishing a substrate with the aforementioned polishing composition.

Abstract: The invention provides a cyanide-free chemical-mechanical polishing (CMP) composition useful for polishing a gold-containing surface of a substrate. The CMP composition comprises an abrasive, a gold-oxidizing agent, a cyanide-free gold-solubilizing agent, and an aqueous carrier therefor. The invention further provides a method of chemically-mechanically polishing a gold-containing surface of a substrate with the aforementioned polishing composition.

Abstract: A system, composition, and a method for planarizing or polishing a composite substrate are provided. The planarizing or polishing system comprises (i) a polishing composition comprising (a) about 0.5 wt. % or more of fluoride ions, (b) about 1 wt. % or more of an amine, (c) about 0.1 wt. % or more of a base, and (d) water, and (ii) an abrasive. The present invention also provides a method of planarizing or polishing a composite substrate comprising contacting the substrate with a system comprising (i) a polishing composition comprising (a) about 0.5 wt. % or more of fluoride ions, (b) about 1 wt. % or more of an amine, (c) about 0.1 wt. % or more of a base, and (d) water, and (ii) an abrasive.

Abstract: The inventive chemical-mechanical polishing composition comprises a liquid carrier, hydrogen peroxide, benzotriazole, and a halogen anion. The inventive method comprises chemically-mechanically polishing a substrate with the polishing composition.

Abstract: The invention provides a chemical-mechanical polishing system for polishing a substrate comprising (a) a polishing component selected from an abrasive, a polishing pad, or both an abrasive and a polishing pad, (b) an aqueous carrier, and (c) the halogen adduct resulting from the reaction of (1) an oxidizing agent selected from the group consisting of iodine, bromine, and a combination thereof, and (2) a carbon acid having a pKa of about 3 to about 14, wherein the halogen adduct is present in a concentration of about 0.01 mM or more in the aqueous carrier.

Abstract: The inventive method comprises chemically-mechanically polishing a substrate comprising at least one layer of silicon carbide with a polishing composition comprising a liquid carrier, an abrasive, and an oxidizing agent.

Abstract: The invention provides a chemical-mechanical polishing composition consisting essentially of silica, an oxidizing agent, a quaternary ammonium compound, and water. The invention further provides a method of chemically-mechanically polishing a substrate with the aforementioned polishing composition. The polishing composition provides for enhanced polishing rates when used to polish dielectric films.

Abstract: The invention provides a chemical-mechanical polishing composition comprising silica, a compound in an amount sufficient to provide about 0.2 mM to about 10 mM of a metal cation selected from the group consisting of gallium (III), chromium (II), and chromium (III), and water, wherein the polishing composition has a pH of about 1 to about 6. The invention further provides a method of chemically-mechanically polishing a substrate with the aforementioned polishing composition.