Patent application number | Description | Published |
20080317955 | LOW RESISTIVITY METAL CARBONITRIDE THIN FILM DEPOSITION BY ATOMIC LAYER DEPOSITION - Thermal atomic layer deposition processes are provided for growing low resistivity metal carbonitride thin films. In preferred embodiments TaCN thin films with a resistivity of less than about 1000 μΩ·cm are grown from tantalum halide precursors and precursors that contribute both carbon and nitrogen to the growing film. Such precursors include, for example, hexamethyldisilazane (HMDS), tetramethyldisilazane (TMDS), bisdiethylaminosilane (BDEAS) and hexakis(ethylamino)disilane (HEADS). | 12-25-2008 |
20090068832 | THIN FILMS - Thin films are formed by formed by atomic layer deposition, whereby the composition of the film can be varied from monolayer to monolayer during cycles including alternating pulses of self-limiting chemistries. In the illustrated embodiments, varying amounts of impurity sources are introduced during the cyclical process. A graded gate dielectric is thereby provided, even for extremely thin layers. The gate dielectric as thin as 2 nm can be varied from pure silicon oxide to oxynitride to silicon nitride. Similarly, the gate dielectric can be varied from aluminum oxide to mixtures of aluminum oxide and a higher dielectric material (e.g., ZrO | 03-12-2009 |
20090315093 | ATOMIC LAYER DEPOSITION OF METAL CARBIDE FILMS USING ALUMINUM HYDROCARBON COMPOUNDS - Methods of forming metal carbide films are provided. In some embodiments, a substrate is exposed to alternating pulses of a transition metal species and an aluminum hydrocarbon compound, such as TMA, DMAH, or TEA. The aluminum hydrocarbon compound is selected to achieve the desired properties of the metal carbide film, such as aluminum concentration, resistivity, adhesion and oxidation resistance. In some embodiments, the methods are used to form a metal carbide layer that determines the work function of a control gate in a flash memory. | 12-24-2009 |
20110256718 | THIN FILMS - Thin films are formed by formed by atomic layer deposition, whereby the composition of the film can be varied from monolayer to monolayer during cycles including alternating pulses of self-limiting chemistries. In the illustrated embodiments, varying amounts of impurity sources are introduced during the cyclical process. A graded gate dielectric is thereby provided, even for extremely thin layers. The gate dielectric as thin as 2 nm can be varied from pure silicon oxide to oxynitride to silicon nitride. Similarly, the gate dielectric can be varied from aluminum oxide to mixtures of aluminum oxide and a higher dielectric material (e.g., ZrO | 10-20-2011 |
20130143408 | ETCH RESISTANT ALUMINA BASED COATINGS - Method of forming a protective hard mask layer on a substrate in a semiconductor etch process, comprising the step of applying by solution deposition on the substrate a solution or colloidal dispersion of an alumina polymer, said solution or dispersion being obtained by hydrolysis and condensation of monomers of at least one aluminium oxide precursor in a solvent or a solvent mixture in the presence of water and a catalyst. The invention can be used for making a hard mask in a TSV process to form a high aspect ratio via a structure on a semiconductor substrate. | 06-06-2013 |
20130183445 | ENHANCED THIN FILM DEPOSITION - Methods of producing metal-containing thin films with low impurity contents on a substrate by atomic layer deposition (ALD) are provided. The methods preferably comprise contacting a substrate with alternating and sequential pulses of a metal source chemical, a second source chemical and a deposition enhancing agent. The deposition enhancing agent is preferably selected from the group consisting of hydrocarbons, hydrogen, hydrogen plasma, hydrogen radicals, silanes, germanium compounds, nitrogen compounds, and boron compounds. In some embodiments, the deposition-enhancing agent reacts with halide contaminants in the growing thin film, improving film properties. | 07-18-2013 |
20140024223 | Atomic Layer Deposition with Plasma Source - The invention relates to method including operating a plasma atomic layer deposition reactor configured to deposit material in a reaction chamber on at least one substrate by sequential self-saturating surface reactions, and allowing gas from an inactive gas source to flow into a widening radical in-feed part opening towards the reaction chamber substantially during a whole deposition cycle. The invention also relates to a corresponding apparatus. | 01-23-2014 |
20140087093 | DEPOSITION REACTOR WITH PLASMA SOURCE - A deposition reactor includes an in-feed part that defines an expansion space which leads reactants as a top to bottom flow from a plasma source towards a reaction chamber, the expansion space widening towards the reaction chamber, and a lifting mechanism for loading at least one substrate to the reaction chamber from the top side of the reaction chamber. The deposition reactor deposits material on the at least one substrate in the reaction chamber by sequential self-saturating surface reactions. | 03-27-2014 |
20140127405 | ATOMIC LAYER DEPOSITION OF METAL CARBIDE FILMS USING ALUMINUM HYDROCARBON COMPOUNDS - Methods of forming metal carbide films are provided. In some embodiments, a substrate is exposed to alternating pulses of a transition metal species and an aluminum hydrocarbon compound, such as TMA, DMAH, or TEA. The aluminum hydrocarbon compound is selected to achieve the desired properties of the metal carbide film, such as aluminum concentration, resistivity, adhesion and oxidation resistance. In some embodiments, the methods are used to form a metal carbide layer that determines the work function of a control gate in a flash memory. | 05-08-2014 |