Patent application number | Description | Published |
20080241386 | Atomic Layer Deposition Methods - The invention includes an atomic layer deposition method of forming a layer of a deposited composition on a substrate. The method includes positioning a semiconductor substrate within an atomic layer deposition chamber. On the substrate, an intermediate composition monolayer is formed, followed by a desired deposited composition from reaction with the intermediate composition, collectively from flowing multiple different composition deposition precursors to the substrate within the deposition chamber. A material adheres to a chamber internal component surface from such sequentially forming. After such sequentially forming, a reactive gas flows to the chamber which is different in composition from the multiple different deposition precursors and which is effective to react with such adhering material. After the reactive gas flowing, such sequentially forming is repeated. Further implementations are contemplated. | 10-02-2008 |
20080251828 | ENHANCED ATOMIC LAYER DEPOSITION - A method of enhanced atomic layer deposition is described. In an embodiment, the enhancement is the use of plasma. Plasma begins prior to flowing a second precursor into the chamber. The second precursor reacts with a prior precursor to deposit a layer on the substrate. In an embodiment, the layer includes at least one element from each of the first and second precursors. In an embodiment, the layer is TaN. In an embodiment, the precursors are TaF | 10-16-2008 |
20090127105 | SYSTEMS AND METHODS FOR FORMING NIOBIUM AND/OR VANADIUM CONTAINING LAYERS USING ATOMIC LAYER DEPOSITION - A method of forming (and an apparatus for forming) a metal containing layer on a substrate, particularly a semiconductor substrate or substrate assembly for use in manufacturing a semiconductor or memory device structure, using one or more precursor compounds that include niobium and/or vanadium and using an atomic layer deposition process including a plurality of deposition cycles. | 05-21-2009 |
20090215252 | Methods of Depositing Materials Over Substrates, and Methods of Forming Layers over Substrates - The invention includes methods of utilizing supercritical fluids to introduce precursors into reaction chambers. In some aspects, a supercritical fluid is utilized to introduce at least one precursor into a chamber during ALD, and in particular aspects the supercritical fluid is utilized to introduce multiple precursors into the reaction chamber during ALD. The invention can be utilized to form any of various materials, including metal-containing materials, such as, for example, metal oxides, metal nitrides, and materials consisting of metal. Metal oxides can be formed by utilizing a supercritical fluid can be utilized to introduce a metal-containing precursor into reaction chamber, with the precursor then forming a metal-containing layer over a surface of a substrate. Subsequently, the metal-containing layer can be reacted with oxygen to convert at least some of the metal within the layer to metal oxide. | 08-27-2009 |
20100047945 | Methods Of Forming Particle-Containing Materials - The invention includes methods of forming particle-containing materials, and also includes semiconductor constructions comprising particle-containing materials. One aspect of the invention includes a method in which a first monolayer is formed across at least a portion of a semiconductor substrate, particles are adhered to the first monolayer, and a second monolayer is formed over the particles. Another aspect of the invention includes a construction containing a semiconductor substrate and a particle-impregnated conductive material over at least a portion of the semiconductor substrate. The particle-impregnated conductive material can include tungsten-containing particles within a layer which includes tantalum or tungsten. | 02-25-2010 |
20110108929 | ENHANCED ATOMIC LAYER DEPOSITION - Atomic layer deposition is enhanced using plasma. Plasma begins prior to flowing a second precursor into a chamber. The second precursor reacts with a first precursor to deposit a layer on a substrate. The layer may include at least one element from each of the first and second precursors. The layer may be TaN, and the precursors may be TaF | 05-12-2011 |
20110147935 | METHOD AND SYSTEM FOR BINDING HALIDE-BASED CONTAMINANTS - A method and apparatus are presented for reducing halide-based contamination within deposited titanium-based thin films. Halide adsorbing materials are utilized within the deposition chamber to remove halides, such as chlorine and chlorides, during the deposition process so that contamination of the titanium-based film is minimized. A method for regenerating the halide adsorbing material is also provided. | 06-23-2011 |
20120202359 | Method of Increasing Deposition Rate of Silicon Dioxide on a Catalyst - Methods for forming dielectric layers, and structures and devices resulting from such methods, and systems that incorporate the devices are provided. The invention provides an aluminum oxide/silicon oxide laminate film formed by sequentially exposing a substrate to an organoaluminum catalyst to form a monolayer over the surface, remote plasmas of oxygen and nitrogen to convert the organoaluminum layer to a porous aluminum oxide layer, and a silanol precursor to form a thick layer of silicon dioxide over the porous oxide layer. The process provides an increased rate of deposition of the silicon dioxide, with each cycle producing a thick layer of silicon dioxide of about | 08-09-2012 |
20120276750 | METHOD AND SYSTEM FOR BINDING HALIDE-BASED CONTAMINANTS - A method and apparatus are presented for reducing halide-based contamination within deposited titanium-based thin films. Halide adsorbing materials are utilized within the deposition chamber to remove halides, such as chlorine and chlorides, during the deposition process so that contamination of the titanium-based film is minimized. A method for regenerating the halide adsorbing material is also provided. | 11-01-2012 |
20130140646 | TRANSISTOR WITH REDUCED DEPLETION FIELD WIDTH - Devices such as transistors having an oxide layer that provide a depletion field in a conduction channel. A barrier layer is formed over the oxide layer. A gate electrode is formed over the barrier layer. The barrier layer and gate electrode are configured to reduce the width of the depletion field absent a voltage applied to the gate electrode. | 06-06-2013 |
20130231240 | METHOD AND SYSTEM FOR BINDING HALIDE-BASED CONTAMINANTS - A method and apparatus are presented for reducing halide-based contamination within deposited titanium-based thin films. Halide adsorbing materials are utilized within the deposition chamber to remove halides, such as chlorine and chlorides, during the deposition process so that contamination of the titanium-based film is minimized. A method for regenerating the halide adsorbing material is also provided. | 09-05-2013 |
20140151857 | METHOD AND SYSTEM FOR BINDING HALIDE-BASED CONTAMINANTS - A method and apparatus are presented for reducing halide-based contamination within deposited titanium-based thin films. Halide adsorbing materials are utilized within the deposition chamber to remove halides, such as chlorine and chlorides, during the deposition process so that contamination of the titanium-based film is minimized. A method for regenerating the halide adsorbing material is also provided. | 06-05-2014 |