Patent application number | Description | Published |
20080305564 | MANUFACTURING APPARATUS FOR SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE - A manufacturing apparatus for a semiconductor device, treating a SiN film formed on a wafer with phosphoric acid solution, including a processing bath to store phosphoric acid solution provided for treatment of the wafer, a control unit for calculating integrated SiN etching amount of the phosphoric acid solation, determining necessity of quality adjustment of the phosphoric acid solution, based on correlation between the integrated SiN etching amount calculated and etching selectivity to oxide film, and calculating a quality adjustment amount of the phosphoric acid solution as needed, and also including a mechanism to adjust the quality of the phosphoric acid solution based on the quality adjustment amount calculated. | 12-11-2008 |
20100136716 | Manufacturing apparatus for semiconductor device and manufacturing method for semiconductor device - A manufacturing apparatus for a semiconductor device, treating a SiN film formed on a wafer with phosphoric acid solution, including a processing bath to store phosphoric acid solution provided for treatment of the wafer, a control unit for calculating integrated SiN etching amount of the phosphoric acid solution, determining necessity of quality adjustment of the phosphoric acid solution, based on correlation between the integrated SiN etching amount calculated and etching selectivity to oxide film, and calculating a quality adjustment amount of the phosphoric acid solution as needed, and also including a mechanism to adjust the quality of the phosphoric acid solution based on the quality adjustment amount calculated. | 06-03-2010 |
20100267233 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A metal member layer on a silicon member layer is patterned. A sidewall film is formed on a surface of the metal member layer. The silicon member layer is patterned to form a structure including the silicon member layer and the metal member layer, the surface of which is covered with the sidewall film. After the surface of the structure is cleaned, a water-repellent protective film is formed on the surface of the structure before the surface of the structure is dried. | 10-21-2010 |
20110220152 | SUPERCRITICAL DRYING METHOD AND SUPERCRITICAL DRYING APPARATUS - According to one embodiment, a substrate having a plurality of adjacent patterns on one surface thereof is cleaned by cleaning liquid. Subsequently, after the cleaning liquid is displaced with pure water, the pure water is displaced with displacement liquid. Under a condition that the displacement liquid among the patterns does not vaporize, the displacement liquid not contributing to prevention of collapse of the patterns is removed. After the displacement liquid is removed, the substrate is held in supercritical fluid and the displacement liquid among the patterns is displaced with the supercritical fluid. After the displacement liquid among the patterns is displaced with the supercritical fluid, the supercritical fluid adhering to the substrate is vaporized. | 09-15-2011 |
20130249062 | FILM EMBEDDING METHOD AND SEMICONDUCTOR DEVICE - A method of forming an embedded film comprises depositing a first layer on a second layer that is disposed on a substrate and includes a material different from materials included in the first layer, forming an aperture through the first layer and into the second layer, the aperture having a side surface that includes an exposed portion of the first layer and an exposed portion of the second layer, bringing a material that includes organic molecules into contact with the exposed portion of the first layer and the exposed portion of the second layer to form a monomolecular film that covers the side surface, and forming the embedded film in the aperture with a material having a high enough affinity to the monomolecular film to substantially fill the aperture. | 09-26-2013 |
20140065555 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - According to one embodiment, a manufacturing method includes forming a desired pattern containing an uneven pattern on a substrate, subjecting the surface of the desired pattern to a water repellent treatment, forming a resist film on the desired pattern, performing an exposure treatment to expose the uneven pattern, rinsing the substrate with water, and drying the substrate. | 03-06-2014 |
Patent application number | Description | Published |
20090311874 | METHOD OF TREATING SURFACE OF SEMICONDUCTOR SUBSTRATE - A method of treating the surface of a semiconductor substrate has cleaning the semiconductor substrate having a pattern formed thereon by using a chemical solution, removing the chemical solution by using pure water, forming a water repellent protective film on the surface of the semiconductor substrate, rinsing the semiconductor substrate by using pure water, and drying the semiconductor substrate. | 12-17-2009 |
20100044343 | SUBSTRATE TREATMENT APPARATUS AND SUBSTRATE TREATMENT METHOD - A substrate treatment apparatus for treating a substrate on which a plurality of patterns are formed adjacently, has a first chamber which has resistance to a chemical and cleans the substrate with the chemical; a second chamber which is disposed above or below the first chamber, has higher pressure resistance than the first chamber, and supercritically dries the substrate; and a gate unit which is provided between the first and second chambers and can be opened/closed. | 02-25-2010 |
20100075504 | METHOD OF TREATING A SEMICONDUCTOR SUBSTRATE - A method of treating a semiconductor substrate has forming convex patterns over the semiconductor substrate by dry etching, cleaning and modifying a surface of the convex patterns by using chemical, forming a hydrophobic functional surface on the modified surface of the convex patterns, after forming the hydrophobic functional surface, rinsing the semiconductor substrate by using water, drying the semiconductor substrate, and removing the hydrophobic functional group from the hydrophobic functional surface of the convex patterns. | 03-25-2010 |
20100132742 | TEMPLATE CLEANING METHOD, SYSTEM, AND APPARATUS - A template cleaning method for cleaning a template for nanoimprint, according to an embodiment of the present invention includes placing a wafer on a stage provided in a chamber, cleaning the wafer placed on the stage, inspecting the wafer for particles after the cleaning of the wafer, placing the template on the stage after the inspection of the wafer, and cleaning the template placed on the stage. | 06-03-2010 |
20100210110 | ETCHING APPARATUS, A METHOD OF CONTROLLING AN ETCHING SOLUTION, AND A METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - An etching apparatus includes a chamber containing an etching solution including first and second components and water, a concentration of the water in the etching solution is at a specified level or lower; a circulation path circulating the etching solution; a concentration controller sampling the etching liquid from the circulation path and controls concentrations of the etching solution respectively; and a refilling chemical liquid feeder feeding a refilling chemical liquid including the first component having a concentration higher than the first component in the etching solution. | 08-19-2010 |
20100240219 | Method of treating a semiconductor substrate - A method of treating a semiconductor substrate has forming convex patterns over the semiconductor substrate by dry etching, cleaning and modifying a surface of the convex patterns by using chemical, forming a hydrophobic functional surface on the modified surface of the convex patterns, after forming the hydrophobic functional surface, rinsing the semiconductor substrate by using water, drying the semiconductor substrate, and removing the hydrophobic functional group from the hydrophobic functional surface of the convex patterns. | 09-23-2010 |
20110143541 | APPARATUS AND METHOD OF TREATING SURFACE OF SEMICONDUCTOR SUBSTRATE - In one embodiment, an apparatus of treating a surface of a semiconductor substrate comprises a substrate holding and rotating unit, first to fourth supplying units, and a removing unit. A substrate holding and rotating unit holds a semiconductor substrate, having a convex pattern formed on its surface, and rotates the semiconductor substrate. A first supplying unit supplies a chemical onto the surface of the semiconductor substrate in order to clean the semiconductor substrate. A second supplying unit supplies pure water to the surface of the semiconductor substrate in order to rinse the semiconductor substrate. A third supplying unit supplies a water repellent agent to the surface of the semiconductor substrate in order to form a water repellent protective film onto the surface of the convex pattern. A fourth supplying unit supplies alcohol, which is diluted with pure water, or acid water to the surface of the semiconductor substrate in order to rinse the semiconductor substrate. A removing unit removes the water repellent protective film with the convex pattern being left. | 06-16-2011 |
20110143545 | APPARATUS AND METHOD OF TREATING SURFACE OF SEMICONDUCTOR SUBSTRATE - In one embodiment, an apparatus of treating a surface of a semiconductor substrate comprises a substrate holding and rotating unit which holds a semiconductor substrate with a surface having a convex pattern formed thereon and rotates the semiconductor substrate, a first supply unit which supplies a chemical and/or pure water to the surface of the semiconductor substrate, and a second supply unit which supplies a diluted water repellent to the surface of the semiconductor substrate to form a water-repellent protective film on the surface of the convex pattern. The second supply unit comprises a buffer tank which stores the water repellent, a first supply line which supplies a purge gas to the buffer tank, a second supply line which supplies a diluent, a pump which sends off the water repellent within the buffer tank, a third supply line which supplies the water repellent sent off from the pump, and a mixing valve which mixes the diluent and the water repellent to produce the diluted water repellent. | 06-16-2011 |
20110230054 | SEMICONDUCTOR SUBSTRATE CLEANING METHOD - In one embodiment, a semiconductor substrate cleaning method is disclosed. The method can clean a semiconductor substrate by using a chemical of 80° C. or above. The method can rinse the semiconductor substrate by using pure water of 40° C. or above after the cleaning of the semiconductor substrate. The method can then rinse the semiconductor substrate by using pure water of 30° C. or below. In addition, the method can dry the semiconductor substrate. | 09-22-2011 |
20110269313 | SEMICONDUCTOR SUBSTRATE SURFACE TREATMENT METHOD - In one embodiment, a method for treating a surface of a semiconductor substrate is disclosed. The semiconductor substrate has a first pattern covered by a resist and a second pattern not covered by the resist. The method includes supplying a resist-insoluble first chemical solution onto a semiconductor substrate to subject the second pattern to a chemical solution process. The method includes supplying a mixed liquid of a water repellency agent and a resist-soluble second chemical solution onto the semiconductor substrate after the supply of the first chemical solution, to form a water-repellent protective film on a surface of at least the second pattern and to release the resist. In addition, the method can rinse the semiconductor substrate using water after the formation of the water-repellent protective film, and dry the rinsed semiconductor substrate. | 11-03-2011 |
20110289793 | SUPERCRITICAL DRYING METHOD - According to one embodiment, a semiconductor substrate having a surface wetted with a chemical solution is introduced into a chamber, and a supercritical fluid is supplied into the chamber. The temperature in the chamber is adjusted to the critical temperature of the chemical solution or higher, so that the chemical solution is put into a supercritical state. The pressure in the chamber is then lowered, and the chemical solution in the critical state is turned into gaseous matter. The gaseous matter is then discharged from the chamber. | 12-01-2011 |
20110314689 | SUBSTRATE DRYING METHOD - According to one embodiment, a semiconductor substrate whose surface is wet with a chemical solution (solvent) and formed with patterns having an aspect ratio of 10 or more is loaded into a chamber. Then, while the chemical solution (solvent) remains on the semiconductor substrate, its temperature is increased to a predetermined temperature in the range of 160° C. or more and less than the critical temperature of the chemical solution (solvent), and the evaporated chemical solution (solvent) is discharged from the chamber. | 12-29-2011 |
20120009786 | PLASMA PROCESSING METHOD AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A plasma processing method in which performing a plasma etching on metal layers formed on a substrate is conducted to form a pattern having the metal layers in a stacked structure, and then a deposit containing a metal that forms the metal layers and being deposited on a sidewall portion of the pattern is removed, the method includes: forming a protective layer by forming an oxide or chloride of the metal on sidewall portions of the metal layers; removing the deposit by applying a plasma of a gas containing fluorine atoms; and reducing the oxide or chloride of the metal by applying a plasma containing hydrogen after forming the protective layer and removing the deposit. | 01-12-2012 |
20120118332 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE - In one embodiment, after rinsing a semiconductor substrate having a fine pattern formed thereon with pure water, the pure water staying on the semiconductor substrate is substituted with a water soluble organic solvent, and then, the semiconductor substrate is introduced into a chamber in a state wet with the water soluble organic solvent. Then, the water soluble organic solvent is turned into a supercritical state by increasing a temperature inside of the chamber. Thereafter, the inside of the chamber is reduced in pressure while keeping the inside of the chamber at a temperature enough not to liquefy the pure water (i.e., rinsing pure water mixed into the water soluble organic solvent), and further, the water soluble organic solvent in the supercritical state is changed into a gaseous state, to be discharged from the chamber, so that the semiconductor substrate is dried. | 05-17-2012 |
20120118334 | EXHAUST GAS TREATMENT DEVICE AND METHOD AND SEMICONDUCTOR MANUFACTURING SYSTEM - Certain embodiments provide an exhaust gas treatment device, comprising a scrubber unit having a vessel and a sprayer spraying water into the vessel, a first pipe through which a first gas discharged from an external apparatus and containing a non-water-soluble organic solvent is supplied to the vessel, and a second pipe through which a second gas containing a water-soluble organic solvent is supplied to the vessel through the first pipe or directly. In the vessel, the water-soluble organic solvent and the non-water-soluble organic solvent are adsorbed and removed from a mixed gas composed of the first gas and the second gas by the water sprayed from the sprayer. The mixed gas is discharged from the vessel through a third pipe. | 05-17-2012 |
20120186097 | SUPERCRITICAL DRYING DEVICE AND METHOD - Certain embodiments provide a supercritical drying device, comprising a sealable first vessel; a fluorine adsorbent provided inside the first vessel; a second vessel being provided inside the first vessel and housing a semiconductor substrate; a heater heating the inside of the first vessel; a pipe connected to the first vessel; and a valve provided on the pipe. Free fluorine generated by heating a fluorine containing solvent is adsorbed to the fluorine adsorbent. | 07-26-2012 |
20120240426 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE - According to one embodiment, a supercritical drying method for a semiconductor substrate includes introducing a semiconductor substrate formed with a metal film into a chamber, the surface of the substrate being wet with alcohol, supplying a supercritical fluid of carbon dioxide into the chamber, setting a temperature inside the chamber to a predetermined temperature, to replace the alcohol on the semiconductor substrate with the supercritical fluid, and discharging the supercritical fluid and the alcohol from the chamber while keeping the temperature inside the chamber at the predetermined temperature, to lower a pressure inside the chamber. The predetermined temperature is not lower than 75° C. but lower than a critical temperature of the alcohol. | 09-27-2012 |
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 |
20130037055 | CLEANING METHOD, CLEANING APPARATUS - Transferring plural semiconductor substrates under a state being held with predetermined intervals; holding the plural semiconductor substrates with roll brushes provided in plural pieces by each front side and back side of the plural semiconductor substrates, longitudinal directions of the roll brushes being oriented in parallel relative to the front side and the back side; and cleaning the plural semiconductor substrates by rotating the plural roll brushes. | 02-14-2013 |
20130055584 | SUPERCRlTICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE - According to one embodiment, a supercritical drying method for a semiconductor substrate comprises introducing a semiconductor substrate, a surface of the semiconductor substrate being wet with a water-soluble organic solvent, to the inside of a chamber, hermetically sealing the chamber and increasing a temperature inside the chamber to not lower than a critical temperature of the water-soluble organic solvent, thereby bringing the water-soluble organic solvent into a supercritical state, decreasing a pressure inside the chamber and changing the water-soluble organic solvent in the supercritical state to a gas, thereby discharging the water-soluble organic solvent from the chamber, starting a supply of an inert gas into the chamber as the pressure inside the chamber decreases to atmospheric pressure, and cooling the semiconductor substrate in a state where the inert gas exists inside the chamber. | 03-07-2013 |
20130061492 | SUPERCRITICAL DRYING METHOD AND SUPERCRITICAL DRYING APPARATUS FOR SEMICONDUCTOR SUBSTRATE - According to one embodiment, a supercritical drying apparatus comprises a chamber being hermetically sealable and configured to store a semiconductor substrate, a heater configured to heat an inner side of the chamber, a supply unit configured to supply carbon dioxide to the chamber, a discharge unit configured to discharge carbon dioxide from the chamber, and a rotation unit configured to rotate the chamber by an angle equal to or greater than 90 degrees and equal to or smaller than 180 degrees with respect to the horizontal direction. | 03-14-2013 |
20130122706 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - According to one embodiment, a method of manufacturing of a semiconductor device is provided. In the method, a front surface of a semiconductor substrate and a front surface of a support substrate are bonded to each other by an adhesive. A part of a circumferential part of the support substrate is subjected to water-repellent treatment to thereby form a water-repellent area on the part of the circumferential part in such a manner that the water-repellent area and an end face of the adhesive are in contact with each other. The semiconductor substrate is removed from a rear surface side by wet etching. | 05-16-2013 |
20140174482 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE - In one embodiment, after rinsing a semiconductor substrate having a fine pattern formed thereon with pure water, the pure water staying on the semiconductor substrate is substituted with a water soluble organic solvent, and then, the semiconductor substrate is introduced into a chamber in a state wet with the water soluble organic solvent. Then, the water soluble organic solvent is turned into a supercritical state by increasing a temperature inside of the chamber. Thereafter, the inside of the chamber is reduced in pressure while keeping the inside of the chamber at a temperature enough not to liquefy the pure water (i.e., rinsing pure water mixed into the water soluble organic solvent), and further, the water soluble organic solvent in the supercritical state is changed into a gaseous state, to be discharged from the chamber, so that the semiconductor substrate is dried. | 06-26-2014 |
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 |
20150135549 | SUPERCRITICAL DRYING METHOD FOR SEMICONDUCTOR SUBSTRATE - According to one embodiment, a supercritical drying method for a semiconductor substrate comprises introducing a semiconductor substrate, a surface of the semiconductor substrate being wet with a water-soluble organic solvent, to the inside of a chamber, hermetically sealing the chamber and increasing a temperature inside the chamber to not lower than a critical temperature of the water-soluble organic solvent, thereby bringing the water-soluble organic solvent into a supercritical state, decreasing a pressure inside the chamber and changing the water-soluble organic solvent in the supercritical state to a gas, thereby discharging the water-soluble organic solvent from the chamber, starting a supply of an inert gas into the chamber as the pressure inside the chamber decreases to atmospheric pressure, and cooling the semiconductor substrate in a state where the inert gas exists inside the chamber. | 05-21-2015 |
20150371845 | SURFACE TREATMENT APPARATUS AND METHOD FOR SEMICONDUCTOR SUBSTRATE - In one embodiment, a surface treatment apparatus for a semiconductor substrate includes a holding unit, a first supply unit, a second supply unit, a third supply unit, a drying treatment unit, and a removal unit. The holding unit holds a semiconductor substrate with a surface having a convex pattern formed thereon. The first supply unit supplies a chemical solution to the surface of the semiconductor substrate, to perform cleaning and oxidation. The second supply unit supplies pure water to the surface of the semiconductor substrate, to rinse the semiconductor substrate. The third supply unit supplies a water repelling agent to the surface of the semiconductor substrate, to form a water repellent protective film on the surface of the convex pattern. The drying treatment unit dries the semiconductor substrate. The removal unit removes the water repellent protective film while making the convex pattern remain. | 12-24-2015 |