Abstract: Embodiments of the invention generally relate to methods of removing and/or cleaning a substrate surface having different material layers disposed thereon using water vapor plasma treatment. In one embodiment, a method for cleaning a surface of a substrate includes positioning a substrate into a processing chamber, the substrate having a dielectric layer disposed thereon forming openings on the substrate, exposing the dielectric layer disposed on the substrate to water vapor supplied into the chamber to form a plasma in the water vapor, maintaining a process pressure in the chamber at between about 1 Torr and about 120 Torr, and cleaning the contact structure formed on the substrate.

Abstract: Embodiments of the invention generally relate to methods of removing and/or cleaning a substrate surface having different material layers disposed thereon using water vapor plasma treatment. In one embodiment, a method for cleaning a surface of a substrate includes positioning a substrate into a processing chamber, the substrate having a dielectric layer disposed thereon forming openings on the substrate, exposing the dielectric layer disposed on the substrate to water vapor supplied into the chamber to form a plasma in the water vapor, maintaining a process pressure in the chamber at between about 1 Torr and about 120 Torr, and cleaning the contact structure formed on the substrate.

Abstract: Adhesion between a copper metallization layer and a dielectric barrier film may be promoted by stabilizing a flow of a silicon-containing precursor in a divert line leading to the chamber exhaust. The stabilized gas flow is then introduced to the processing chamber to precisely form a silicide layer over the copper. This silicidation step creates a network of strong Cu—Si bonds that prevent delamination of the barrier layer, while not substantially altering the sheet resistance and other electrical properties of the resulting metallization structure.

Abstract: Unwanted hillocks arising in copper layers due to formation of overlying barrier layers may be significantly reduced by optimizing various process parameters, alone or in combination. A first set of process parameters may be controlled to pre-condition the processing chamber in which the barrier layer is deposited. A second set of process parameters may be controlled to minimize energy to which a copper layer is exposed during removal of CuO prior to barrier deposition. A third set of process parameters may be controlled to minimize the thermal budget after removal of the copper oxide.

Abstract: Methods and apparatus for cleaning semiconductor processing equipment. The apparatus include both local and remote gas dissociators coupled to a semiconductor processing chamber to be cleaned. The methods include introducing a precursor gas into the remote dissociator where the gas is dissociated and introducing a portion of the dissociated gas into the chamber. Another portion of the dissociated gas which re-associates before introduction into the chamber is also introduced into the chamber where it is again dissociated. The dissociated gas combines with contaminants in the chamber and is exhausted from the chamber along with the contaminants.

Abstract: A method and device for removing film from a substrate are provided that take advantage of a remote plasma source to etch away undesired portions of films, such as dielectric films formed on a substrate. To that end, the method includes forming a plasma remotely with respect to the process chamber, from which a flow is created that is directed toward the substrate. The substrate is of a type having opposed major surfaces with a peripheral surface extending therebetween. A film, such as a dielectric film, is disposed on one of the opposed major surfaces and on the peripheral surface. The opposed major surface having the film thereon is shielded from the flow of reactive radicals while the peripheral surface is left exposed. In this fashion, the flow is maintained for a sufficient amount of time to remove film present on the peripheral surface.