Abstract: A CMP slurry is formulated with an oxidizer capable of oxidizing a metal undergoing planarization and yielding a complexing agent which complexes with the oxidized metal thereby minimizing overetching. The slurry may further include abrasive particles, inhibitors, pH adjusting agents, and combinations thereof.

Abstract: A method and composition for planarizing a substrate. The composition includes a pressure sensitive solution and one or more chemical agents for complexing with a metal or oxidized metal. The method for removal of a copper containing layer from a substrate surface, comprising applying a composition to a polishing media, the composition comprising a pressure sensitive solution, and one or more chemical agents for complexing with a metal or oxidized metal, and polishing the substrate surface with the polishing media.

Abstract: The methods and systems described provide for an in-situ endpoint detection for material removal processes such as chemical mechanical processing (CMP) performed on a workpiece. In a preferred embodiment, an optical detection system is used to detect endpoint during the removal of planar conductive layers using CMP. An optically transparent polishing belt provides endpoint detection through any spot on the polishing belt. Once endpoint is detected, a signal can be used to terminate or alter a CMP process that has been previously initiated.

Abstract: An article of manufacture and apparatus are provided for planarizing a substrate surface. In one aspect, an article of manufacture is provided for polishing a substrate including polishing article comprising a body having at least a partially conductive surface adapted to polish the substrate and a mounting surface. A plurality of perforations may be formed in the polishing article for flow of material therethrough. In another aspect, a polishing article for polishing a substrate includes a body having a polishing surface and a conductive element disposed therein. The conductive element may have a contact surface that extends beyond a plane defined by the polishing surface. The polishing surface may have one or more pockets formed therein. The conductive element may be disposed in each of the polishing pockets.

Abstract: A CMP slurry is formulated with a single component oxidizer capable of oxidizing a metal undergoing planarization and yielding a complexing agent which complexes with the oxidized metal thereby minimizing overetching. Embodiments include CMP Cu with a fixed abrasive pad or an abrasive containing slurry, employing a peroxy acid, e.g., peroxy benzoic acid, or a polyethylene glycol peroxy acid. In another embodiment, a single component is employed which dissociates in the slurry into an oxidizer and complexing agent, such as an amine-peroxy acid, e.g., urea peroxy acid.

Abstract: Dishing in chemical mechanical polishing (CMP) is reduced by introducing a material that balances electrochemical forces. In a first embodiment of the invention, a polishing pad having copper material in grooves on the polishing pad surface is used in the polishing process to reduce dishing. In a second embodiment of the invention, the polishing pad has perforations with copper fillings. In a third embodiment of the invention, a copper retaining ring on the polishing head introduces copper material to the CMP process to reduce dishing. In a fourth embodiment of the invention, a conditioning plate of copper is used in the polishing apparatus. In a fifth embodiment of the invention, additional copper features are placed on the substrate to be polished. The polishing of the additional features introduces copper steadily through the polishing process. In a sixth embodiment of the invention, copper compounds are added to the polish slurry.

Abstract: Ion exchange materials are employed in CMP methodologies to polish or thin a semiconductor substrate or a layer thereon. Embodiments include a polishing pad having an ion exchange material thereon and polishing a semiconductor substrate or a layer thereon with the polishing pad or a CMP composition including an ion exchange material therein and polishing the substrate or a layer thereon with the CMP composition or both.

Abstract: A method and composition for planarizing a substrate surface is provided. The polishing composition includes an oxidizer capable of oxidizing a metal undergoing planarization and yielding a complexing agent which complexes with the oxidized metal and a stabilizer such as a stannate salt. The composition may further include abrasive particles and/or inhibitors. The composition may be used in a multi-step polishing process including polishing a substrate surface to selectively remove a metal layer with respect to a barrier layer and dielectric layer and polishing a substrate surface using the composition to non-selectively remove the metal layer, a barrier layer, and a dielectric layer from the substrate surface.

Abstract: An inventive brush, pad or the like is provided that has functional groups (complexing agents) such as chelating reagents. The complexing agents may be chemically grafted to the brush or pad, may be resin beads physically blended with the brush materials, or the brush or pad may be made of a homogeneous material containing a complexing polymer. The immobilized complexing agents on the brush can effectively pick up metal ions or metal oxides from the substrate surface upon contact but may not etch into the metal lines.

Abstract: A method and apparatus for performing vapor phase deposition to form a monolayer coating on the surface of an article. A liquid coating reagent is provided in a flow passageway extending into the process chamber. A carrier gas is flowed through the flow passageway to form a gas mixture including a vaporized coating reagent. The gas mixture is directed into the process chamber to contact the article. The vaporized coating reagent is deposited onto the article to form a coating thereon.