Patent application number | Description | Published |
20090014812 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - Disclosed herein is a semiconductor device, including: a first group of transistors formed on a semiconductor substrate; and a second group of transistors formed on the semiconductor substrate, each of which is lower in operating voltage than each of the transistors in the first group; wherein each of the transistors in the first group includes a first gate electrode formed on the semiconductor substrate through a first gate insulating film, and a silicide layer formed on the first gate electrode; each of the transistors in the second group includes a second gate electrode formed in a trench for gate formation, formed in an insulating film above the semiconductor substrate, through a second gate insulating film; and a protective film is formed so as to cover the silicide layer on each of the first gate electrodes of the first group of transistors. | 01-15-2009 |
20090023261 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device, includes the steps of forming a dummy gate insulating film and a dummy gate electrode, forming source and drain regions, forming a first insulating film, forming a second insulating film, removing the second insulating film, simultaneously removing the first insulating film and the second insulating film that remains, while planarizing the first insulating film and the second insulating film that remains, forming a gate electrode trench by removing the dummy gate electrode and the dummy gate insulating film, forming a gate insulating film, and forming a gate electrode, wherein a field effect transistor is formed by the method. | 01-22-2009 |
20090048409 | ACRYLIC COPOLYMER - It is intended to in a liquid-immersion exposure process, simultaneously prevent any degeneration, represented by bridge, etc., of resist film during the liquid-immersion exposure using water and other various liquid-immersion exposure liquids and any degeneration of liquid-immersion exposure liquids per se, and to without increasing of the number of treatment steps, realize enhancing of the post-exposure storage stability of resist film, and to enable forming of a resist pattern of high resolution through liquid-immersion exposure. Use is made of an acrylic copolymer of the general formula: | 02-19-2009 |
20090104788 | METHOD OF PRODUCING INSULATOR THIN FILM, INSULATOR THIN FILM, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - A method of producing an insulator thin film, for forming a thin film on a substrate by use of the atomic layer deposition process, includes a first step of forming a silicon atomic layer on the substrate and forming an oxygen atomic layer on the silicon atomic layer, and a second step of forming a metal atomic layer on the substrate and forming an oxygen atomic layer on the metal atomic layer, wherein the concentration of the metal atoms in the insulator thin film is controlled by controlling the number of times the first step and the second step are carried out. | 04-23-2009 |
20090189237 | SOLID-STATE IMAGING ELEMENT - The present invention provides a solid-state imaging element including: a silicon layer having a photodiode formed therein and a positive charge accumulation region formed on the surface thereof; and an optical waveguide formed above the photodiode to guide incident light into the photodiode, wherein an insulating layer is formed in the optical waveguide, and the insulating layer has a dielectric constant of 5 or greater and negative fixed charge. | 07-30-2009 |
20090197199 | MATERIAL FOR FORMING RESIST PROTECTIVE FILM AND METHOD FOR FORMING RESIST PATTERN USING SAME - In the liquid immersion lithography process, by simultaneously preventing deterioration of a resist film and deterioration of an immersion liquid employed during liquid immersion lithography which uses various immersion liquids, including water, resistance to post exposure delay of the resist film can be improved without increasing the number of processes, thereby making it possible to form a high resolution resist pattern using liquid immersion lithography. Using an alkaline soluble polymer, a crosslinking agent, and a solvent capable of dissolving them as at least constituent component, a composition is prepared and a protective film is formed on the surface of the resist film to be used, using the composition. | 08-06-2009 |
20090209056 | METHOD FOR MANUFACTURING SOLID-STATE IMAGING DEVICE - A method for manufacturing a solid-state imaging device in which a charge generator that detects an electromagnetic wave and generates signal charges is formed on a semiconductor substrate and a negative-charge accumulated layer having negative fixed charges is formed above a detection plane of the charge generator, the method includes the steps of: forming an oxygen-feed film capable of feeding oxygen on the detection plane of the charge generator; forming a metal film that covers the oxygen-feed film on the detection plane of the charge generator; and performing heat treatment for the metal film in an inactive atmosphere to thereby form an oxide of the metal film between the metal film and the oxygen-feed film on the detection plane of the charge generator, the oxide being to serve as the negative-charge accumulated layer. | 08-20-2009 |
20100052079 | SEMICONDUCTOR DEVICES AND FABRICATION PROCESS THEREOF - A semiconductor device has an insulated gate transistor provided with a semiconductor substrate and a gate electrode arranged on the semiconductor substrate via a gate insulating film. The gate electrode includes an electrically-conductive buffer film for preventing any damage, which would occur if a main gate electrode portion were formed directly over the gate insulating film, and the main gate electrode portion formed over the buffer film. A fabrication process for the semiconductor device is also disclosed. | 03-04-2010 |
20100108864 | SOLID-STATE IMAGING DEVICE, MANUFACTURING METHOD OF THE SAME, AND IMAGING APPARATUS - A solid-state imaging device includes: a pixel part having a photoelectric conversion part photoelectrically converting incident light to obtain signal charge; and a peripheral circuit part formed on a periphery of the pixel part on a semiconductor substrate. The pixel part having a vertical transistor that reads out the signal charge from the photoelectric conversion part and a planar transistor that processes the signal charge read out by the vertical transistor. The vertical transistor has a groove part formed on the semiconductor substrate; a gate insulator film formed on an inner surface of the groove part; a conducting layer formed on a surface of the gate insulator film on the semiconductor substrate within and around the groove part; a filling layer filling an interior of the groove part via the gate insulator film and the conducting layer; and an electrode layer connected to the conducting layer on the filling layer. | 05-06-2010 |
20110056511 | Cleaning liquid and a cleaning method - Problem: To provide a cleaning liquid and a cleaning method having excellent leaning capability. In a process of liquid immersion lithography, they can preventing the damage to be caused by the component released from the photoresist to photoexposure devices; the waste treatment is easy; the efficiency in substitution with the cleaning liquid for the medium for liquid immersion lithography is high, and the production cost is reduced not detracting from the throughput in semiconductor production. | 03-10-2011 |
20110237014 | METHOD FOR MANUFACTURING SOLID-STATE IMAGING DEVICE - A method for manufacturing a solid-state imaging device in which a charge generator that detects an electromagnetic wave and generates signal charges is formed on a semiconductor substrate and a negative-charge accumulated layer having negative fixed charges is formed above a detection plane of the charge generator. The method includes the steps of: forming an oxygen-feed film capable of feeding oxygen on the detection plane of the charge generator; forming a metal film that covers the oxygen-feed film on the detection plane of the charge generator; and performing heat treatment for the metal film in an inactive atmosphere to thereby form an oxide of the metal film between the metal film and the oxygen-feed film on the detection plane of the charge generator, the oxide being to serve as the negative-charge accumulated layer. | 09-29-2011 |
20110269280 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - A semiconductor device, including: a first group of transistors formed on a semiconductor substrate; and a second group of transistors formed on the semiconductor substrate, each of which is lower in operating voltage than each of the transistors in the first group; wherein each of the transistors in the first group includes a first gate electrode formed on the semiconductor substrate through a first gate insulating film, and a silicide layer formed on the first gate electrode; each of the transistors in the second group includes a second gate electrode formed in a trench for gate formation, formed in an insulating film above the semiconductor substrate, through a second gate insulating film; and a protective film is formed so as to cover the silicide layer on each of the first gate electrodes of the first group of transistors. | 11-03-2011 |
20130020667 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - A solid-state imaging device includes a photoelectric conversion film which is interposed between two transparent electrodes outside a semiconductor substrate, wherein a film surface of the photoelectric conversion film is provided so as to incline with respect to a front surface of the semiconductor substrate. | 01-24-2013 |