Patent application number | Description | Published |
20090053426 | COBALT DEPOSITION ON BARRIER SURFACES - Embodiments of the invention provide processes for depositing a cobalt layer on a barrier layer and subsequently depositing a conductive material, such as copper or a copper alloy, thereon. In one embodiment, a method for depositing materials on a substrate surface is provided which includes forming a barrier layer on a substrate, exposing the substrate to dicobalt hexacarbonyl butylacetylene (CCTBA) and hydrogen to form a cobalt layer on the barrier layer during a vapor deposition process (e.g., CVD or ALD), and depositing a conductive material over the cobalt layer. In some examples, the barrier layer and/or the cobalt layer may be exposed to a gas or a reagent during a treatment process, such as a thermal process, an in situ plasma process, or a remote plasma process. | 02-26-2009 |
20100062149 | METHOD FOR TUNING A DEPOSITION RATE DURING AN ATOMIC LAYER DEPOSITION PROCESS - Embodiments of the invention provide methods for depositing a material on a substrate within a processing chamber during a vapor deposition process, such as an atomic layer deposition (ALD) process. In one embodiment, a method is provided which includes sequentially exposing the substrate to a first precursor gas and at least a second precursor gas while depositing a material on the substrate during the ALD process, and continuously or periodically exposing the substrate to a treatment gas prior to and/or during the ALD process. The deposition rate of the material being deposited may be controlled by varying the amount of treatment gas exposed to the substrate. In one example, tantalum nitride is deposited on the substrate and the alkylamino metal precursor gas contains a tantalum precursor, such as pentakis(dimethylamino) tantalum (PDMAT), the second precursor gas contains a nitrogen precursor, such as ammonia, and the treatment gas contains dimethylamine (DMA). | 03-11-2010 |
20100062614 | IN-SITU CHAMBER TREATMENT AND DEPOSITION PROCESS - Embodiments of the invention provide a method for treating the inner surfaces of a processing chamber and depositing a material on a during a vapor deposition process, such as atomic layer deposition (ALD) or by chemical vapor deposition (CVD). In one embodiment, the inner surfaces of the processing chamber and the substrate may be exposed to a reagent, such as a hydrogenated ligand compound during a pretreatment process. The hydrogenated ligand compound may be the same ligand as a free ligand formed from the metal-organic precursor used during the subsequent deposition process. The free ligand is usually formed by hydrogenation or thermolysis during the deposition process. In one example, the processing chamber and substrate are exposed to an alkylamine compound (e.g., dimethylamine) during the pretreatment process prior to conducting the vapor deposition process which utilizes a metal-organic chemical precursor having alkylamino ligands, such as pentakis(dimethylamino) tantalum (PDMAT). | 03-11-2010 |
20140248772 | METHOD FOR TUNING A DEPOSITION RATE DURING AN ATOMIC LAYER DEPOSITION PROCESS - Embodiments of the invention provide methods for depositing a material on a substrate within a processing chamber during a vapor deposition process, such as an atomic layer deposition (ALD) process. In one embodiment, a method is provided which includes sequentially exposing the substrate to a first precursor gas and at least a second precursor gas while depositing a material on the substrate during the ALD process, and continuously or periodically exposing the substrate to a treatment gas prior to and/or during the ALD process. The deposition rate of the material being deposited may be controlled by varying the amount of treatment gas exposed to the substrate. In one example, tantalum nitride is deposited on the substrate and the alkylamino metal precursor gas contains a tantalum precursor, such as pentakis(dimethylamino) tantalum (PDMAT), the second precursor gas contains a nitrogen precursor, such as ammonia, and the treatment gas contains dimethylamine (DMA). | 09-04-2014 |
20150087157 | ELECTROMAGNETIC DIPOLE FOR PLASMA DENSITY TUNING IN A SUBSTRATE PROCESSING CHAMBER - Methods and apparatus for plasma-enhanced substrate processing are provided herein. In some embodiments, an apparatus for processing a substrate includes: a process chamber having an internal processing volume disposed beneath a dielectric lid of the process chamber; a substrate support disposed in the process chamber; two or more concentric inductive coils disposed above the dielectric lid to inductively couple RF energy into the processing volume above the substrate support; and an electromagnetic dipole disposed proximate a top surface of the dielectric lid between two adjacent concentric inductive coils of the two or more concentric inductive coils. | 03-26-2015 |
20150255333 | COBALT DEPOSITION ON BARRIER SURFACES - Embodiments of the invention provide processes for depositing a cobalt layer on a barrier layer and subsequently depositing a conductive material, such as copper or a copper alloy, thereon. In one embodiment, a method for depositing materials on a substrate surface is provided which includes forming a barrier layer on a substrate, exposing the substrate to dicobalt hexacarbonyl butylacetylene (CCTBA) and hydrogen to form a cobalt layer on the barrier layer during a vapor deposition process (e.g., CVD or ALD), and depositing a conductive material over the cobalt layer. In some examples, the barrier layer and/or the cobalt layer may be exposed to a gas or a reagent during a treatment process, such as a thermal process, an in situ plasma process, or a remote plasma process. | 09-10-2015 |