Patent application number | Description | Published |
20090181547 | METHOD OF PRODUCING SEMICONDUCTOR DEVICE - Disclosed is a substrate processing apparatus, including: a processing space to provide a space in which a substrate is to be processed; a heating member to heat the processing space; a gas supply member to supply at least first and second processing gases to the processing space; an exhaust member to exhaust an atmosphere in the processing space; and a control member to control at least the gas supply member and the exhaust member such that supply and exhaust of the first and second processing gases are alternately repeated a plurality of times so that the first and second processing gases are not mixed with each other in the processing space when forming a desired film on the substrate, and both the first and second processing gases are supplied to the processing space when coating a surface of an inner wall of the processing space with a desired film. | 07-16-2009 |
20090277382 | SEMICONDUCTOR MANUFACTURING APPARATUS - Provided is a semiconductor manufacturing apparatus, which is capable of realizing fine-pitch patterns and thus improving stabilization of patterning precision. The semiconductor manufacturing apparatus comprises: a photoresist processing unit for forming a photoresist pattern in a predetermined region on a substrate to which a predetermined process is applied; and a substrate processing unit for forming a thin film on the surface of at least the photoresist pattern. | 11-12-2009 |
20090278235 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - Provided is a manufacturing method of a semiconductor device, which is capable of realizing fine-pitch patterns and thus improving stabilization of patterning precision. The manufacturing method of the semiconductor device comprises forming a first photoresist pattern in a predetermined region on a substrate, depositing a thin film on the surface of the first photoresist pattern, and forming a second photoresist pattern in a region where the first photoresist pattern is not formed. | 11-12-2009 |
20090280652 | PRODUCTION METHOD FOR SEMICONDUCTOR DEVICE AND SUBSTRATE PROCESSING APPARATUS - Disclosed is a producing method of a semiconductor device comprising a first step of supplying a first reactant to a substrate to cause a ligand-exchange reaction between a ligand of the first reactant and a ligand as a reactive site existing on a surface of the substrate, a second step of removing a surplus of the first reactant, a third step of supplying a second reactant to the substrate to cause a ligand-exchange reaction to change the ligand after the exchange in the first step into a reactive site, a fourth step of removing a surplus of the second reactant, and a fifth step of supplying a plasma-excited third reactant to the substrate to cause a ligand-exchange reaction to exchange a ligand which has not been exchange-reacted into the reactive site in the third step into the reactive site, wherein the first to fifth steps are repeated predetermined times. | 11-12-2009 |
20100233887 | PRODUCTION METHOD FOR SEMICONDUCTOR DEVICE AND SUBSTRATE PROCESSING APPARATUS - A production method for a semiconductor device comprising the first step of supplying a first reaction material to a substrate housed in a processing chamber to subject to a ligand substitution reaction a ligand as a reaction site existing on the surface of the substrate and the ligand of the first reaction material, the second step of removing the excessive first reaction material from the processing chamber, the third step of supplying a second reaction material to the substrate to subject a ligand substituted by the first step to a ligand substitution reaction with respect to a reaction site, the fourth step of removing the excessive second reaction material from the processing chamber, and a fifth step of supplying a third reaction material excited by plasma to the substrate to subject a ligand, not subjected to a substitution reaction with respect to a reaction site in the third step, to a ligand substitution reaction with respect to a reaction site, wherein the steps 1-5 are repeated a specified number of times until a film of a desired thickness is formed on the substrate surface. | 09-16-2010 |
20110300722 | SUBSTRATE PROCESSING APPARATUS - A substrate processing device comprises a reaction vessel | 12-08-2011 |
20120034790 | METHOD OF PRODUCING SEMICONDUCTOR DEVICE - Disclosed is a producing method of a semiconductor device comprising a first step of supplying a first reactant to a substrate to cause a ligand-exchange reaction between a ligand of the first reactant and a ligand as a reactive site existing on a surface of the substrate, a second step of removing a surplus of the first reactant, a third step of supplying a second reactant to the substrate to cause a ligand-exchange reaction to change the ligand after the exchange in the first step into a reactive site, a fourth step of removing a surplus of the second reactant, and a fifth step of supplying a plasma-excited third reactant to the substrate to cause a ligand-exchange reaction to exchange a ligand which has not been exchange-reacted into the reactive site in the third step into the reactive site, wherein the first to fifth steps are repeated predetermined times. | 02-09-2012 |
20120073751 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - Provided is a substrate processing apparatus comprising: a processing chamber for processing a substrate; a material supply unit for supplying a Si material, an oxidation material and a catalyst into the processing chamber; a heating unit for heating the substrate; and a controller for controlling at least the material supply unit and the heating unit, wherein the controller controls the heating unit such that heating temperature of the substrate becomes a processing temperature lower than a deformation temperature of a first photoresist constituting a first photoresist pattern, and the controller controls the material supply unit to repeat an alternate supply of the Si material and the catalyst, and the oxidation material and the catalyst into the processing chamber a plurality of times. | 03-29-2012 |
20120077350 | METHOD OF PRODUCING SEMICONDUCTOR DEVICE - Disclosed is a producing method of a semiconductor device comprising a first step of supplying a first reactant to a substrate to cause a ligand-exchange reaction between a ligand of the first reactant and a ligand as a reactive site existing on a surface of the substrate, a second step of removing a surplus of the first reactant, a third step of supplying a second reactant to the substrate to cause a ligand-exchange reaction to change the ligand after the exchange in the first step into a reactive site, a fourth step of removing a surplus of the second reactant, and a fifth step of supplying a plasma-excited third reactant to the substrate to cause a ligand-exchange reaction to exchange a ligand which has not been exchange-reacted into the reactive site in the third step into the reactive site, wherein the first to fifth steps are repeated predetermined times. | 03-29-2012 |
20130171838 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, METHOD OF PROCESSING SUBSTRATE, SUBSTRATE PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM - Provided is a method of manufacturing a semiconductor device capable of forming a nitride layer having high resistance to hydrogen fluoride at low temperatures. The method includes forming a nitride film on a substrate by performing a cycle a predetermined number of times, the cycle including supplying a source gas to the substrate, supplying a plasma-excited hydrogen-containing gas to the substrate, supplying a plasma-excited or thermally excited nitriding gas to the substrate, and supplying at least one of a plasma-excited nitrogen gas and a plasma-excited rare gas to the substrate. | 07-04-2013 |
20140080319 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, SUBSTRATE PROCESSING APPARATUS, AND RECORDING MEDIUM - A method of manufacturing a semiconductor device includes forming a thin film containing a predetermined element, oxygen, carbon, and nitrogen on a substrate by performing a cycle a predetermined number of times. The cycle includes supplying a predetermined element-containing gas to the substrate; supplying a carbon-containing gas and a plasma-excited inert gas to the substrate; supplying an oxidizing gas to the substrate; and supplying a nitriding gas to the substrate. | 03-20-2014 |