Patent application number | Description | Published |
20080299326 | PLASMA CVD APPARATUS HAVING NON-METAL SUSCEPTOR - A plasma CVD apparatus includes: a cooling susceptor for placing a substrate thereon and serving as an electrode; and a shower plate for introducing gas toward the susceptor via multiple throughholes formed therein. The shower plate serves as an electrode and is disposed in parallel to the susceptor. The cooling susceptor is made of a ceramic material provided with a cooling fluid flow path for passing a cooling fluid therethrough. | 12-04-2008 |
20080305648 | METHOD FOR FORMING INORGANIC SILAZANE-BASED DIELECTRIC FILM - A method of forming an inorganic silazane-based dielectric film includes: introducing a gas constituted by Si and H and a gas constituted by N and optionally H into a reaction chamber where an object is placed; controlling a temperature of the object at −50° C. to 50° C.; and depositing by plasma reaction a film constituted by Si, N, and H containing inorganic silazane bonds. | 12-11-2008 |
20090156017 | METHOD FOR FORMING DIELECTRIC FILM USING SILOXANE-SILAZANE MIXTURE - A method of forming a dielectric film, includes: introducing a siloxane gas essentially constituted by Si, O, C, and H and a silazane gas essentially constituted by Si, N, H, and optionally C into a reaction chamber where a substrate is placed; depositing a siloxane-based film including Si—N bonds on the substrate by plasma reaction; and annealing the siloxane-based film on the substrate in an annealing chamber to remove Si—N bonds from the film. | 06-18-2009 |
20100124618 | Method of Forming Insulation Film Using Plasma Treatment Cycles - A film forming cycle based on pulse CVD or ALD is repeated multiple times to form a single layer of insulation film, while a reforming cycle is implemented in the aforementioned process, either once or multiple times per each film forming cycle, by treating the surface of formed film using a treating gas that has been activated by a plasma. | 05-20-2010 |
20100143609 | METHOD FOR FORMING LOW-CARBON CVD FILM FOR FILLING TRENCHES - A method of forming a low-carbon silicon-containing film by CVD on a substrate having trenches includes: introducing a silicon-containing compound having three or less hydrocarbon units in its molecule and having a boiling temperature of 35° C. to 220° C.; applying RF power to the gas; and depositing a film on a substrate having trenches wherein the substrate is controlled at a temperature such that components of the silicon-containing compound are at least partially liquidified on the substrate, thereby filling the trenches with the film. | 06-10-2010 |
20100184302 | Method of Forming Conformal Dielectric Film Having Si-N Bonds by PECVD - A method of forming a conformal dielectric film having Si—N bonds on a semiconductor substrate by plasma enhanced chemical vapor deposition (PECVD) includes: introducing a nitrogen- and hydrogen-containing reactive gas and an additive gas into a reaction space inside which a semiconductor substrate is placed; applying RF power to the reaction space; and introducing a hydrogen-containing silicon precursor in pulses into the reaction space wherein a plasma is excited, thereby forming a conformal dielectric film having Si—N bonds on the substrate. | 07-22-2010 |
20100291713 | METHOD OF FORMING HIGHLY CONFORMAL AMORPHOUS CARBON LAYER - A method of forming a conformal amorphous hydrogenated carbon layer on an irregular surface of a semiconductor substrate includes: vaporizing a hydrocarbon-containing precursor; introducing the vaporized precursor and an argon gas into a CVD reaction chamber inside which the semiconductor substrate is placed; depositing a conformal amorphous hydrogenated carbon layer on the irregular surface of the semiconductor substrate by plasma CVD; and controlling the deposition of the conformal ratio of the depositing conformal amorphous hydrogenated carbon layer. The controlling includes (a) adjusting a step coverage of the conformal amorphous hydrogenated carbon layer to about 30% or higher as a function of substrate temperature, and (b) adjusting a conformal ratio of the conformal amorphous hydrogenated carbon layer to about 0.9 to about 1.1 as a function of RF power and/or argon gas flow rate, | 11-18-2010 |
20110217838 | METHOD FOR FORMING INTERCONNECT STRUCTURE HAVING AIRGAP - A method for forming an interconnect structure with airgaps, includes: providing a structure having a trench formed on a substrate; depositing a spacer oxide layer on sidewalls of the trench as sidewall spacers by plasma enhanced atomic layer deposition; filling the trench having the sidewall spacers with copper; removing the sidewall spacers to form an airgap structure; and encapsulating the airgap structure, wherein airgaps are formed between the filled copper and the sidewalls of the trench. | 09-08-2011 |
20120214318 | Method of Depositing Dielectric Film by ALD Using Precursor Containing Silicon, Hydrocarbon, and Halogen - A method of forming a dielectric film having at least Si—N, Si—C, or Si—B bonds on a semiconductor substrate by atomic layer deposition (ALD), includes: adsorbing a precursor on a surface of a substrate; supplying a reactant gas over the surface; reacting the precursor and the reactant gas on the surface; and repeating the above steps to form a dielectric film having at least Si—N, Si—C, or Si—B bonds on the substrate. The precursor has at least one Si—C or Si—N bond, at least one hydrocarbon, and at least one halogen attached to silicon in its molecule. | 08-23-2012 |
20120295449 | Method of Depositing Dielectric Film by ALD Using Precursor Containing Silicon, Hydrocarbon, and Halogen - A method of forming a dielectric film having at least Si—N, Si—C, or Si—B bonds on a semiconductor substrate by atomic layer deposition (ALD), includes: supplying a precursor in a pulse to adsorb the precursor on a surface of a substrate; supplying a reactant gas in a pulse over the surface without overlapping the supply of the precursor; reacting the precursor and the reactant gas on the surface; and repeating the above steps to form a dielectric film having at least Si—N, Si—C, or Si—B bonds on the substrate. The precursor has at least one Si—C or Si—N bond, at least one hydrocarbon, and at least two halogens attached to silicon in its molecule. | 11-22-2012 |
20130115763 | METHODS FOR FORMING DOPED SILICON OXIDE THIN FILMS - The present disclosure relates to the deposition of dopant films, such as doped silicon oxide films, by atomic layer deposition processes. In some embodiments, a substrate in a reaction space is contacted with pulses of a silicon precursor and a dopant precursor, such that the silicon precursor and dopant precursor adsorb on the substrate surface. Oxygen plasma is used to convert the adsorbed silicon precursor and dopant precursor to doped silicon oxide. | 05-09-2013 |
20130224964 | Method for Forming Dielectric Film Containing Si-C bonds by Atomic Layer Deposition Using Precursor Containing Si-C-Si bond - A method of forming a dielectric film having Si—C bonds on a semiconductor substrate by atomic layer deposition (ALD), includes: (i) adsorbing a precursor on a surface of a substrate; (ii) reacting the adsorbed precursor and a reactant gas on the surface; and (iii) repeating steps (i) and (ii) to form a dielectric film having at least Si—C bonds on the substrate. The precursor has a Si—C—Si bond in its molecule, and the reactant gas is oxygen-free and halogen-free and is constituted by at least a rare gas. | 08-29-2013 |
20130244446 | Method for Forming Si-Containing Film Using Two Precursors by ALD - A method for forming a silicon-containing dielectric film on a substrate by atomic layer deposition (ALD) includes: providing two precursors, one precursor containing a halogen in its molecule, another precursor containing a silicon but no halogen in its molecule, adsorbing a first precursor, which is one of the two precursors onto a substrate to deposit a monolayer of the first precursor; adsorbing a second precursor, which is the other of the two precursors onto the monolayer of the first precursor to deposit a monolayer of the second precursor; and exposing the monolayer of the second precursor to radicals of a reactant to cause surface reaction with the radicals to form a compound monolayer of a silicon-containing film. | 09-19-2013 |
20130330933 | Method for Forming Silicon-Containing Dielectric Film by Cyclic Deposition with Side Wall Coverage Control - A method of forming a dielectric film having Si—C bonds and/or Si—N bonds on a semiconductor substrate by cyclic deposition, includes: (i) conducting one or more cycles of cyclic deposition in a reaction space wherein a semiconductor substrate is placed, using a Si-containing precursor and a reactant gas; and (ii) before or after step (i), applying a pulse of RF power to the reaction space while supplying a rare gas and a treatment gas without supplying a Si-containing precursor, whereby a dielectric film having Si—C bonds and/or Si—N bonds is formed on the semiconductor substrate. | 12-12-2013 |
20140017414 | Method for Forming Aluminum Oxide Film Using Al Compound Containing Alkyl Group and Alkoxy or Alkylamine Group - A method for forming a conformal film of aluminum oxide on a substrate having a patterned underlying layer by PEALD includes: adsorbing an Al precursor containing an Al—C bond and an Al—O—C or Al—N—C bond; providing an oxidizing gas and an inert gas; applying RF power to the reactant gas and the reaction-assisting gas to react the adsorbed precursor with the reactant gas on the surface, thereby forming a conformal film of aluminum oxide on the patterned underlying layer of the substrate, wherein the substrate is kept at a temperature of about 200° C. or lower. | 01-16-2014 |
20140017908 | Method for Forming Conformal, Homogeneous Dielectric Film by Cyclic Deposition and Heat Treatment - A method for forming a conformal, homogeneous dielectric film includes: forming a conformal dielectric film in trenches and/or holes of a substrate by cyclic deposition using a gas containing a silicon and a carbon, nitrogen, halogen, hydrogen, and/or oxygen, in the absence of a porogen gas; and heat-treating the conformal dielectric film and continuing the heat-treatment beyond a point where substantially all unwanted carbons are removed from the film and further continuing the heat-treatment to render substantially homogeneous film properties of a portion of the film deposited on side walls of the trenches and/or holes and a portion of the film deposited on top and bottom surfaces of the trenches and/or holes. | 01-16-2014 |
20140141625 | Method for Forming Insulation Film Using Non-Halide Precursor Having Four or More Silicons - A method of forming an insulation film on a semiconductor substrate by plasma enhanced atomic layer deposition (PEALD), includes: (i) adsorbing a non-excited non-halide precursor having four or more silicon atoms in its molecule onto a substrate placed in a reaction space; (ii) supplying an oxygen-free reactant to the reaction space without applying RF power so as to expose the precursor-adsorbed substrate to the reactant; and (iii) after step (ii), applying RF power to the reaction space while the oxygen-free reactant is supplied in the reaction space; and (iv) repeating steps (i) to (iii) as a cycle, thereby depositing an insulation film on the substrate. | 05-22-2014 |
20140273477 | Si PRECURSORS FOR DEPOSITION OF SiN AT LOW TEMPERATURES - Methods and precursors for depositing silicon nitride films by atomic layer deposition (ALD) are provided. In some embodiments the silicon precursors comprise an iodine ligand. The silicon nitride films may have a relatively uniform etch rate for both vertical and the horizontal portions when deposited onto three-dimensional structures such as FinFETS or other types of multiple gate FETs. In some embodiments, various silicon nitride films of the present disclosure have an etch rate of less than half the thermal oxide removal rate with diluted HF (0.5%). | 09-18-2014 |
20140273531 | Si PRECURSORS FOR DEPOSITION OF SiN AT LOW TEMPERATURES - Methods and precursors for depositing silicon nitride films by atomic layer deposition (ALD) are provided. In some embodiments the silicon precursors comprise an iodine ligand. The silicon nitride films may have a relatively uniform etch rate for both vertical and the horizontal portions when deposited onto three-dimensional structures such as FinFETS or other types of multiple gate FETs. In some embodiments, various silicon nitride films of the present disclosure have an etch rate of less than half the thermal oxide removal rate with diluted HF (0.5%). | 09-18-2014 |
20140345644 | Method For Cleaning Reaction Chamber Using Pre-cleaning Process - A method for cleaning a reaction chamber is conducted after depositing an oxide, nitride, or oxynitride film on a substrate in a reaction chamber having interior surfaces on which oxide, nitride, or oxynitride is accumulated as a result of the deposition, said oxide, nitride, or oxynitride being selected from the group consisting of silicon oxide, silicon nitride, silicon oxynitride, metal oxide, metal nitride, and metal oxynitride. The method includes: oxidizing or nitriding the oxide, nitride, or oxynitride is accumulated on the interior surfaces of the reaction chamber, by RF-excited plasma of an oxygen- or nitrogen-containing gas in the absence of halide gas as a pre-cleaning step; and cleaning the interior surfaces of the reaction chamber, by RF-excited plasma of a halide cleaning gas. | 11-27-2014 |
20150017794 | METHODS FOR FORMING DOPED SILICON OXIDE THIN FILMS - The present disclosure relates to the deposition of dopant films, such as doped silicon oxide films, by atomic layer deposition processes. In some embodiments, a substrate in a reaction space is contacted with pulses of a silicon precursor and a dopant precursor, such that the silicon precursor and dopant precursor adsorb on the substrate surface. Oxygen plasma is used to convert the adsorbed silicon precursor and dopant precursor to doped silicon oxide. | 01-15-2015 |