Patent application number | Description | Published |
20100307543 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A substrate (W) is processed with the use of a process liquid such as a deionized water. Then, a first fluid which is more volatile than the process liquid is supplied to an upper surface of the substrate (W) from a fluid nozzle ( | 12-09-2010 |
20120247516 | SUPERCRITICAL DRYING METHOD AND APPARATUS FOR SEMICONDUCTOR SUBSTRATES - According to one embodiment, a supercritical drying method comprises cleaning a semiconductor substrate with a chemical solution, rinsing the semiconductor substrate with pure water after the cleaning, changing a liquid covering a surface of the semiconductor substrate from the pure water to alcohol by supplying the alcohol to the surface after the rinsing, guiding the semiconductor substrate having the surface wetted with the alcohol into a chamber, discharging oxygen from the chamber by supplying an inert gas into the chamber, putting the alcohol into a supercritical state by increasing temperature in the chamber to a critical temperature of the alcohol or higher after the discharge of the oxygen, and discharging the alcohol from the chamber by lowering pressure in the chamber and changing the alcohol from the supercritical state to a gaseous state. The chamber contains SUS. An inner wall face of the chamber is subjected to electrolytic polishing. | 10-04-2012 |
20120304485 | SUBSTRATE PROCESSING METHOD, SUBSTRATE PROCESSING APPARATUS, AND STORAGE MEDIUM - A substrate processing method and apparatus which can remove an anti-drying liquid, which has entered a three-dimensional pattern with recessed portions formed in a substrate, in a relatively short time. The substrate processing method includes the steps of: carrying a substrate, having a three-dimensional pattern formed in a surface, into a processing container, said pattern being covered with an anti-drying liquid that has entered the recessed portions of the pattern; heating the substrate and supplying a pressurizing gas or a fluid in a high-pressure state into the processing container, thereby forming a high-pressure atmosphere in the processing container before the anti-drying liquid vaporizes to such an extent as to cause pattern collapse and bringing the anti-drying liquid into a high-pressure state while keeping the liquid in the recessed portions of the pattern; and thereafter discharging a fluid in a high-pressure state or a gaseous state from the processing container. | 12-06-2012 |
20130019905 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE AND SUPERCRITICAL DRYING APPARATUS - According to one embodiment, a supercritical drying method for a semiconductor substrate, comprises introducing the semiconductor substrate into a chamber in a state, a surface of the semiconductor substrate being wet with alcohol, substituting the alcohol on the semiconductor substrate with a supercritical fluid of carbon dioxide by impregnating the semiconductor substrate to the supercritical fluid in the chamber, and discharging the supercritical fluid and the alcohol from the chamber and reducing a pressure inside the chamber. The method further comprises performing a baking treatment by supplying an oxygen gas or an ozone gas to the chamber after the reduction of the pressure inside the chamber. | 01-24-2013 |
20140020721 | SUBSTRATE PROCESSING METHOD, SUBSTRATE PROCESSING APPARATUS AND STORAGE MEDIUM - A substrate processing method and apparatus for preventing evaporation of an anti-drying fluorine-containing organic solvent from a substrate during transportation of the substrate into a processing container and can prevent decomposition of a fluorine-containing organic solvent in the processing container. A substrate, the surface of which is covered with a first fluorine-containing organic solvent, is carried into a processing container. The first fluorine-containing organic solvent is removed from the substrate surface by forming a high-pressure fluid atmosphere of a mixture of the first fluorine-containing organic solvent and a second fluorine-containing organic solvent, having a lower boiling point than the first fluorine-containing organic solvent, in the processing container e.g. by supplying a high-pressure fluid of the second fluorine-containing organic solvent into the processing container. Thereafter, a fluid in the state of a high-pressure fluid or a gas is discharged from the processing container to obtain the substrate in the dried state. | 01-23-2014 |
20140250714 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE AND SUPERCRITICAL DRYING APPARATUS - According to one embodiment, a supercritical drying method for a semiconductor substrate, comprises introducing the semiconductor substrate into a chamber in a state, a surface of the semiconductor substrate being wet with alcohol, substituting the alcohol on the semiconductor substrate with a supercritical fluid of carbon dioxide by impregnating the semiconductor substrate to the supercritical fluid in the chamber, and discharging the supercritical fluid and the alcohol from the chamber and reducing a pressure inside the chamber. The method further comprises performing a baking treatment by supplying an oxygen gas or an ozone gas to the chamber after the reduction of the pressure inside the chamber. | 09-11-2014 |
Patent application number | Description | Published |
20080251101 | Substrate Cleaning Method, Substrate Cleaning Equipment, Computer Program, and Program Recording Medium - In a dry process after a cleaning process using a cleaning-liquid nozzle and a rinse process using a side rinse nozzle are performed on a wafer W, the wafer W is turned, feeding of pure water to a center point of the wafer W from a pure-water nozzle is started, and substantially at the same, injection of a nitrogen gas from a gas nozzle to a center portion of the wafer W at a point at an adequate distance apart from the center of the wafer W is started. Next, while the pure-water nozzle is caused to scan toward the periphery of the wafer W, the gas nozzle is caused to scan toward the periphery of the wafer W in an area radially inward of the position of the pure-water nozzle after the gas nozzle passes the center of the wafer W. | 10-16-2008 |
20130333726 | SUBSTRATE PROCESSING APPARATUS, SUBSTRATE PROCESSING METHOD, FLUID SUPPLYING METHOD AND STORAGE MEDIUM - The present disclosure provides a substrate processing apparatus including: a processing chamber configured to process a substrate; a fluid supply source configured to supply a substrate processing fluid used in processing for the substrate in a predetermined pressure; a constant pressure supplying path configured to supply the substrate processing fluid from the fluid supply source to the processing chamber in a predetermined pressure without boosting the pressure of the substrate processing liquid; a boosted pressure supplying path configured to boost the pressure of the substrate processing fluid from the fluid supply source into a predetermined pressure by a booster mechanism and supply the pressure boosted substrate processing fluid to the processing chamber; and a control unit configured to switch over the constant pressure supplying path and the boosted pressure supplying path. | 12-19-2013 |
20140145390 | HIGH-PRESSURE CONTAINER, SUBSTRATE PROCESSING APPARATUS, AND METHOD FOR MANUFACTURING HIGH-PRESSURE CONTAINER - In the present disclosure, the high-pressure chamber includes a chamber main body including a flat rectangular parallelepiped block of a metal which is formed with a flat cavity that serves as a substrate processing space in which a processing using a high-pressure fluid is performed on a substrate, and the substrate processing space being formed by machining the block from one of faces of the block other than the widest face towards another face opposing thereto. In a case where the cavity is constituted as a through hole, the though hole is provided with a cover configured to open or close the cavity on one side of the through hole, and a second block configured to air-tightly seal the cavity on the other side. | 05-29-2014 |
20150258465 | SEPARATION AND REGENERATION APPARATUS AND SUBSTRATE PROCESSING APPARATUS - Disclosed is a separation and regeneration apparatus including: a supercritical processing unit configured to generate a mixed gas including a first fluorine-containing organic solvent having a first boiling point and a second fluorine-containing organic solvent having a second boiling point lower than the first boiling point; and a distillation tank configured to store hot water having a temperature between the first boiling point and the second boiling point, in which the mixed gas is input into the hot water to be separated into the first fluorine-containing organic solvent in a liquid state and the second fluorine-containing organic solvent in a gas state, in which an introduction line configured to guide the mixed gas from the supercritical processing unit to the distillation tank is provided and a distal end of the introduction line is disposed in the hot water. | 09-17-2015 |
20150258466 | SEPARATION AND REGENERATION APPARATUS AND SUBSTRATE PROCESSING APPARATUS - Disclosed is a separation and regeneration apparatus including: a mixed drainage liquid tank (mixed liquid generating unit) configured to generate a mixed liquid which includes a low-specific-gravity liquid insoluble in a fluorine-containing organic solvent, a first fluorine-containing organic solvent having a first boiling point, and a second fluorine-containing organic solvent having a second boiling point higher than the first boiling point; a distillation tank configured to separate the first fluorine-containing organic solvent and the second fluorine-containing organic solvent in the mixed liquid into the first fluorine-containing organic solvent in a gas state and the second fluorine-containing organic solvent in a liquid state; a first tank configured to liquefy and store the first fluorine-containing organic solvent from the distillation tank; and a second tank configured to store the second fluorine-containing organic solvent from the distillation tank. | 09-17-2015 |
20150258584 | SEPARATION AND REGENERATION APPARATUS AND SUBSTRATE PROCESSING APPARATUS - Disclosed is a separation and regeneration apparatus which includes a buffer tank configured to generate a mixed liquid which includes a first fluorine-containing organic solvent having a first boiling point, and a second fluorine-containing organic solvent having a second boiling point higher than the first boiling point; a distillation tank configured to heat the mixed liquid up to a temperature between the first boiling point and the second boiling point so as to separate the mixed liquid into the first fluorine-containing organic solvent in a gas state and the second fluorine-containing organic solvent in a liquid state; a first tank configured to liquefy and store the first fluorine-containing organic solvent in the gas state which is sent from the distillation tank; and a second tank configured to store the second fluorine-containing organic solvent in the liquid state which is sent from the distillation tank. | 09-17-2015 |