Patent application number | Description | Published |
20090255630 | Substrate processing apparatus and electrode member - Disclosed is a substrate processing apparatus, including: a reaction chamber to process a substrate; a substrate placing member to stack a plurality of substrates thereon in multi-layers at a predetermined distance from one another in the reaction chamber; an introducing section to introduce processing gas into the reaction chamber; an exhaust section to exhaust an inside of the reaction chamber; and a plurality of pairs of comb electrodes, to which alternating current electric power is to be applied, to generate plasma, the plurality of pairs of comb electrodes being disposed in the reaction chamber, wherein each pair of the plurality of pairs of comb electrodes are disposed at a predetermined distance from each of plasma processing faces of the plurality of the substrates to be placed on the substrate placing member. | 10-15-2009 |
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 |
20100015811 | SUBSTRATE PROCESSING APPARATUS AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD FOR FORMING FILM - Provided is a substrate processing apparatus. The substrate processing apparatus includes a process chamber, a gas supply system, a gas discharge system, an RF (radio frequency) unit, an electrode, and a control device. The control device controls the gas supply system, the gas discharge system, and the RF unit. While the control device controls the RF unit to apply predetermined RF power to the electrode for generating plasma, the control device controls the gas supply system to supply a process gas to the process chamber alternately at a first flowrate and at a second flowrate greater than the first flowrate. | 01-21-2010 |
20100087069 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SUBSTRATE PROCESSING APPARATUS - The coverage characteristics or loading effect of an oxide film can be improved without having to increase the supply amount or time of an oxidant. There is provided method of manufacturing a semiconductor device. The method comprises loading at least one substrate to a processing chamber; forming an oxide film on the substrate by alternately supplying a first reaction material and a second reaction material containing oxygen atoms to the processing chamber while heating the substrate; and unloading the substrate from the processing chamber, wherein the forming of the oxide film is performed by keeping the substrate at a temperature equal to or lower than a self-decomposition temperature of the first reaction material and irradiating ultraviolet light to the second reaction material. | 04-08-2010 |
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 |
20110209664 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus comprising: a processing chamber which is to accommodate at least one substrate; a gas supply system which is to supply processing gas into the processing chamber; an exhaust system which is to exhaust atmosphere in the processing chamber; and at least one pair of electrodes which are to bring the processing gas into an active state and which are accommodated in protection tubes such that the electrodes can be inserted into and pulled out from the protection tubes, wherein the electrodes are accommodated in the protection tube in a state where at least a portion of the electrodes is bent, and the electrodes are formed of flexible members, is disclosed. | 09-01-2011 |
20110212625 | SUBSTRATE PROCESSING APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A substrate processing apparatus which is capable of improving a manufacture yield while processing a substrate with high precision, and a method of manufacturing a semiconductor device. The substrate processing apparatus includes a substrate support part provided within a process chamber and configured to support a substrate; a substrate support moving mechanism configured to move the substrate support part; a gas feeding part configured to feed a gas into the process chamber; an exhaust part configured to exhaust the gas within the process chamber; and a plasma generating part disposed to face the substrate support part. | 09-01-2011 |
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 |
20130078823 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SUBSTRATE PROCESSING APPARATUS - A method of manufacturing a semiconductor device including: mounting a substrate on a substrate mounting member that is disposed in a reaction container; heating the substrate at a predetermined processing temperature and supplying a first gas and a second gas to the substrate to process the substrate; stopping supply of the first gas and the second gas, and supplying an inert gas into the reaction container; and unloading the substrate to outside the reaction container. | 03-28-2013 |
20140087567 | SUBSTRATE PROCESSING APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Provided is a substrate processing apparatus including: a substrate mounting portion provided in a process chamber and capable of mounting a plurality of substrates in a circumferential direction; a rotating mechanism that rotates the substrate mounting portion at a predetermined angular velocity; dividing structures provided in a radial form from a center of a lid of the process chamber so as to divide the process chamber into a plurality of areas; and gas supply areas disposed between the adjacent dividing structures, wherein an angle between the adjacent dividing structures with one gas supply area interposed is set to an angle corresponding to the angular velocity and a period in which a portion of the substrate mounting portion passes through the gas supply area. | 03-27-2014 |
20150087160 | SUBSTRATE PROCESSING APPARATUS, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, AND RECORDING MEDIUM - A substrate processing apparatus includes: a processing gas supply pipe configured to supply a processing gas into a processing chamber; a substrate mounting table that is installed in the processing chamber and on which a substrate to be processed is mounted; a driving unit configured to drive the substrate mounting table to move the substrate mounted on the substrate mounting table; a first plasma generating unit configured to generate plasma of the processing gas supplied into the processing chamber with a first density; and a second plasma generating unit that is installed adjacent to the first plasma generating unit in a traveling direction of the substrate and configured to generate plasma of the processing gas supplied into the processing chamber with a second density lower than the first density. | 03-26-2015 |
Patent application number | Description | Published |
20090258507 | Substrate Treatment Device and Substrate Treatment Method - In order to solve the problem of contamination caused by static electricity on the surface of a substrate after plasma treatment, the invention provides a substrate treatment device comprising a standby chamber in which is arranged a transfer device for loading a substrate out of/into a cassette rack accommodating a substrate, said substrate treatment device capable of retaining said substrate transferred by the transfer device in a boat and loading, by way of a boat elevator, the boat into/out of a treatment furnace capable of applying plasma treatment to said substrate, wherein a static eliminator for eliminating static electricity of said substrate is arranged in said standby chamber. | 10-15-2009 |
20130276983 | INJECTION MEMBER FOR MANUFACTURING SEMICONDUCTOR DEVICE AND PLASMA PROCESSING APPARATUS HAVING THE SAME - A plasma processing apparatus may include a process chamber configured to perform a plasma using process and contain a plurality of substrates, a support member provided in the process chamber, the substrates being laid on the same level of the support member, an injection member provided to face the support member and include a plurality of baffles, such that at least one reaction gas and a purge gas can be injected onto the substrates in an independent manner, and a driving part configured to rotate the support member or the injection member, such that the baffles of the injection member can orbit with respect to the plurality of the substrates laid on the support member. The injection member may include a plasma generator, which may be provided on at least one, configured to inject the reaction gas, of the baffles to turn the reaction gas into plasma. | 10-24-2013 |
Patent application number | Description | Published |
20080251014 | Substrate Processing Apparatus and Reaction Container - A substrate processing apparatus comprises a reaction chamber which is to accommodate stacked substrates, a gas introducing portion, and a buffer chamber, wherein the gas introducing portion is provided along a stacking direction of the substrates, and introduces substrate processing gas into the buffer chamber, the buffer chamber includes a plurality of gas-supply openings provided along the stacking direction of the substrates, and the processing gas introduced from the gas introducing portion is supplied from the gas-supply openings to the reaction chamber. | 10-16-2008 |
20080251015 | Substrate Processing Apparatus and Reaction Container - A substrate processing apparatus comprises a reaction chamber which is to accommodate stacked substrates, a gas introducing portion, and a buffer chamber, wherein the gas introducing portion is provided along a stacking direction of the substrates, and introduces substrate processing gas into the buffer chamber, the buffer chamber includes a plurality of gas-supply openings provided along the stacking direction of the substrates, and the processing gas introduced from the gas introducing portion is supplied from the gas-supply openings to the reaction chamber. | 10-16-2008 |
20090133630 | Batch-Type Remote Plasma Processing Apparatus - A plasma processing apparatus comprises a processing chamber in which a plurality of substrates are stacked and accommodated; a pair of electrodes extending in the stacking direction of the plurality of substrates, which are disposed at one side of the plurality of substrates in said processing chamber, and to which high frequency electricity is applied; and a gas supply member which supplies processing gas into a space between the pair of electrodes. | 05-28-2009 |
20090159440 | Batch-Type Remote Plasma Processing Apparatus - A plasma processing apparatus comprises a processing chamber in which a plurality of substrates are stacked and accommodated; a pair of electrodes extending in the stacking direction of the plurality of substrates, which are disposed at one side of the plurality of substrates in said processing chamber, and to which high frequency electricity is applied.; and a gas supply member which supplies processing gas into a space between the pair of electrodes. | 06-25-2009 |
Patent application number | Description | Published |
20120258018 | SUBSTRATE PROCESSING APPARATUS, AND TRANSPORT DEVICE - There is provided a substrate procession apparatus, comprising: a processing chamber configured to house a plurality of substrates with a laminated film formed thereon which is composed of any one of copper-indium, copper-gallium, or copper-indium-gallium; a reaction tube formed so as to constitute the processing chamber; a gas supply tube configured to introduce elemental selenium-containing gas or elemental sulfur-containing gas to the processing chamber; an exhaust tube configured to exhaust an atmosphere in the processing chamber; heating section provided so as to surround the reaction tube; and a fan configured to forcibly circulate the atmosphere in the processing chamber in a short-side direction of the plurality of glass substrates, on surfaces of the plurality of glass substrates. | 10-11-2012 |
20120258565 | SUBSTRATE PROCESSING APPARATUS AND METHOD FOR FORMING COATING FILM ON SURFACE OF REACTION TUBE USED FOR THE SUBSTRATE PROCESSING APPARATUS - There is provided a substrate processing apparatus, comprising: a processing chamber in which a plurality of substrates are housed, the substrate having thereon a lamination film composed of any one of copper-indium, copper-gallium, or copper-indium-gallium; a reaction tube formed so as to constitute the processing chamber; a gas supply tube configured to introduce elemental selenium-containing gas or elemental sulfur-containing gas to the processing chamber; an exhaust tube configured to exhaust an atmosphere in the processing chamber; and a heating section provided so as to surround the reaction tube, wherein a porous coating film having a void rate of 5% to 15% mainly composed of a mixture of chromium oxide (Cr | 10-11-2012 |
20120258566 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR MANUFACTURING SOLAR BATTERY, AND METHOD FOR MANUFACTURING SUBSTRATE - There is provide a substrate processing apparatus, comprising: a processing chamber configured to house a plurality of substrates with a laminated film formed thereon which is composed of any one of copper-indium, copper-gallium, or copper-indium-gallium; a gas supply tube configured to introduce elemental selenium-containing gas or elemental sulfur-containing gas into the processing chamber; an exhaust tube configured to exhaust an atmosphere in the processing chamber; and a heating section provided so as to surround the reaction tube, wherein a base of the reaction tube is made of a metal material. | 10-11-2012 |