Patent application number | Description | Published |
20100232781 | Coating and developing apparatus, coating and developing method, and storage medium - A coating and developing apparatus has: a treatment block-including a water repellent module performing water repellent treatment on a substrate, a coating module, and a developing module; a substrate side-surface portion water repellent module for performing water repellent treatment on a side surface of a substrate; and a control unit controlling operations of the modules to execute steps of performing water repellent treatment at least on a side surface portion of a substrate and performing a first resist coating on an entire surface of the substrate; performing a first development after a first liquid-immersion exposure is performed; performing a second resist coating on the entire surface, and performing a second development after a second liquid-immersion exposure is performed, and further to execute a step of performing water repellent treatment on the side surface portion of the substrate after the first development and before the second exposure is performed. | 09-16-2010 |
20110200923 | SUBSTRATE TREATMENT METHOD - A substrate treatment method including a first treatment process (S | 08-18-2011 |
20120140191 | COATING AND DEVELOPING APPARATUS, COATING AND DEVELOPING METHOD, AND STORAGE MEDIUM - A coating and developing apparatus has: a treatment block-including a water repellent module performing water repellent treatment on a substrate, a coating module, and a developing module; a substrate side-surface portion water repellent module for performing water repellent treatment on a side surface of a substrate; and a control unit controlling operations of the modules to execute steps of performing water repellent treatment at least on a side surface portion of a substrate and performing a first resist coating on an entire surface of the substrate; performing a first development after a first liquid-immersion exposure is performed; performing a second resist coating on the entire surface, and performing a second development after a second liquid-immersion exposure is performed, and further to execute a step of performing water repellent treatment on the side surface portion of the substrate after the first development and before the second exposure is performed. | 06-07-2012 |
20150027503 | LIQUID PROCESSING APPARATUS - A liquid processing apparatus for performing liquid processing with respect to a substrate using processing fluid, includes: a plurality of substrate holding units arranged side by side in a left-right direction; a nozzle configured to supply the processing fluid to the substrate held in each of the substrate holding units; and a nozzle moving mechanism configured to move the nozzle forward and backward in a front-rear direction intersecting an arrangement direction of the substrate holding units between a supplying position in which the processing fluid is supplied to a region including a central portion of the substrate and a waiting position which is defined at a rear side of a row of the substrate holding units opposite to a front side of the row of the substrate holding units at which the substrate is loaded and unloaded. | 01-29-2015 |
Patent application number | Description | Published |
20100330508 | DEVELOPING APPARATUS AND DEVELOPING METHOD - A developer nozzle is moved from a periphery of a wafer toward the central portion while an exposed substrate held at a spin chuck is being rotated about a vertical axis and while a developing solution is being discharged from the developer nozzle, and this way the developing solution is supplied to the surface of the wafer, the developer nozzle having a slit-like ejection port whose longitudinal direction is oriented to the direction perpendicular to the radial direction of the wafer. The movement speed of the nozzle is higher than a case where a nozzle with a small-diameter circular nozzle is used, and this enables a development time to be reduced. Further, the thickness of a developing solution on a substrate can be reduced, so that the developing solution can be saved. | 12-30-2010 |
20110127236 | DEVELOPING DEVICE AND DEVELOPING METHOD - The temperature of a developing solution is varied depending on the type of resist or the resist pattern. The developing solution is applied while scanning a developer nozzle having a slit-shaped ejection port that has a length matching the width of the effective area of the substrate. After leaving the substrate with the developing solution being coated thereon for a predetermined period of time, a diluent is supplied while scanning a diluent nozzle, thereby substantially stopping the development reaction and causing the dissolved resist components to diffuse. A desired amount of resist can be quickly dissolved through the control of the developing solution temperature, while the development can be stopped before the dissolved resist components exhibit adverse effect through the supply of the diluent a predetermined timing, whereby achieving a pattern having a uniform line width and improved throughput. | 06-02-2011 |
20110155693 | SUBSTRATE TREATMENT METHOD, COATING TREATMENT APPARATUS, AND SUBSTRATE TREATMENT SYSTEM - In the coating treatment apparatus, in a first treatment chamber, the front and rear surfaces of the substrate held by a transfer arm are inverted by a turning mechanism, and a coating solution is applied from a coating nozzle to the rear surface of the substrate. The substrate is transferred into a second treatment chamber, in which the coating solution on the rear surface is heated by a heating unit to cure, thereby forming a coating film on the rear surface of the substrate. The formation of the coating film by the coating treatment apparatus is performed before exposure processing, whereby the rear surface of the substrate can be flat for the exposure processing. | 06-30-2011 |
20110240597 | SUBSTRATE TREATMENT METHOD, COATING FILM REMOVING APPARATUS, AND SUBSTRATE TREATMENT SYSTEM - According to the present invention, during the photolithography processing of a substrate, exposure processing is performed immediately after removal of a coating film on the rear surface of the substrate, and a coating film is formed on the rear surface of the substrate immediately after the exposure processing. Thereafter, etching treatment and so on are performed, and a series of these treatment and processing steps are performed a predetermined number of times. The coating film has been formed on the rear surface of the substrate at the time for the etching treatment, so that even if the coating film gets minute scratches, the rear surface of the substrate itself is protected by the coating film and thus never scratched. Further, since the coating film on the rear surface of the substrate is removed immediately before the exposure processing, the rear surface of the substrate can be flat for the exposure processing. | 10-06-2011 |
20120006362 | SUBSTRATE CLEANING DEVICE AND SUBSTRATE CLEANING METHOD - A substrate cleaning device and a substrate cleaning method reduces liquid drops remaining on a substrate to prevent the irregular heating of the substrate by a heating process due to liquid drops or water marks remaining on the substrate. A cleaning liquid is poured through a cleaning liquid pouring nozzle onto the surface of a substrate such that a region onto which the cleaning liquid is poured moves from a central part toward the circumference of the substrate. A gas is jetted radially outward at a region on the surface of the substrate behind a region onto which the cleaning liquid is poured with respect to the rotating direction of the substrate. The gas forces a liquid film of the cleaning liquid flowing on the surface of the substrate to flow in a circumferential direction and a radially outward direction. | 01-12-2012 |
20120061021 | SUBSTRATE PROCESSING METHOD, SUBSTRATE PROCESSING SYSTEM, AND COMPUTER-READABLE STORAGE MEDIUM - In the present invention, a plurality of rounds of patterning are performed on a substrate. In a patterning system, the substrate on which a first round of patterning has been performed is transferred to a planarizing film forming unit, where a planarizing film is formed above the substrate. The substrate is then transferred to the patterning system and subjected to a second round of patterning. The time from the completion of the forming processing of the planarizing film to the start of the second round of patterning is managed to be constant among the substrates. According to the present invention, in the pattern forming processing of performing a plurality of rounds of patterning, a pattern with a desired dimension can be stably formed above the substrate. | 03-15-2012 |
20120218531 | DEVELOPING METHOD AND APPARATUS USING ORGANIC-SOLVENT CONTAINING DEVELOPER - Provided are a developing method and a developing apparatus that can reduce process time and improve throughput in a developing process using a developer containing organic solvent. The present invention relates to a developing method for performing developing by supplying a developer containing organic solvent to a substrate having its surface coated with a resist and exposed. The developing method of the invention includes a liquid film forming step for forming a liquid film by supplying the developer from a developer supply nozzle to a central portion of the substrate while rotating the substrate, and a developing step for developing the resist film on the substrate while rotating the substrate in a state where the supply of the developer from the developer supply nozzle to the substrate is stopped and in such a manner that the liquid film of the developer would not dry. | 08-30-2012 |
20130293856 | COATING AND DEVELOPING APPARATUS, COATING FILM FORMING METHOD, AND STORAGE MEDIUM STORING PROGRAM FOR PERFORMING THE METHOD - Disclosed is a technique for preventing a water-repellent protective film formed on a resist film from peeling off during immersion exposure. A resist film is formed on the front surface of a substrate and then the peripheral edge portion of the resist film is removed. Before forming a water-repellent protective film onto the resist film, an adhesion-improving fluid, preferably hexamethyldisilazane gas, for improving the adhesion of the water-repellent protective film, is supplied to the region from which the resist film is removed. | 11-07-2013 |
20150027492 | SUBSTRATE CLEANING APPARATUS, SUBSTRATE CLEANING METHOD, AND STORAGE MEDIUM - There are provided first and second cleaning members which are configured to clean a central zone in a rear surface of a wafer when the wafer held by an absorption pad is horizontally held, and configured to clean a peripheral zone in the rear surface of the wafer when the wafer is held by the spin chuck. Due to the provision of the first and second cleaning members, detergency can be improved as compared with a case in which only one cleaning member is used. The first and second cleaning members are configured to be horizontally turned by a common turning shaft. When the central zone in the rear surface of the wafer is cleaned, the turning shaft is located to be overlapped with the wafer. Since the turning shaft is located by using the moving area of the wafer, a size of an apparatus can be reduced. | 01-29-2015 |
20150036109 | DEVELOPING METHOD, DEVELOPING APPARATUS AND STORAGE MEDIUM - A developing method includes: horizontally holding an exposed substrate by a substrate holder; forming a liquid puddle on a part of the substrate, by supplying a developer from a developer nozzle; rotating the substrate; spreading the liquid puddle on a whole surface of the substrate, by moving the developer nozzle such that a supply position of the developer on the rotating substrate is moved in a radial direction of the substrate; bringing, simultaneously with the spreading of the liquid puddle on the whole surface of the substrate, a contact part into contact with the liquid puddle, the contact part being configured to be moved together with the developer nozzle and having a surface opposed to the substrate which is smaller than the surface of the substrate. According to this method, an amount of liquid falling down to the outside of the substrate can be inhibited. In addition, since the rotating speed of the substrate can be decreased, spattering of the developer can be inhibited. Further, a throughput can be improved by stirring the developer. | 02-05-2015 |
20150036110 | DEVELOPING APPARATUS, DEVELOPING METHOD AND STORAGE MEDIUM - A developing apparatus includes: a substrate holder that hold a substrate horizontally; a developer nozzle that supplies a developer onto the substrate to form a liquid puddle; a turning flow generation mechanism including a rotary member that rotates about an axis perpendicular to the substrate while the rotary member is being in contact with the liquid puddle thereby to generate a turning flow in the liquid puddle of the developer formed on the substrate; and a moving mechanism for moving the turning flow generation mechanism along a surface of the substrate. The line-width uniformity of a pattern can be improved by forming turning flows in a desired region of the substrate and stirring the developer. | 02-05-2015 |