Patent application number | Description | Published |
20090325356 | METHODS OF FORMING A LOW TEMPERATURE DEPOSITION LAYER AND METHODS OF MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME - Provided are methods of forming a low temperature deposition layer and methods of manufacturing a semiconductor device using the same. The method of manufacturing a semiconductor device comprises forming a mask layer exposing a gate pattern on a substrate on which the gate pattern is formed, forming a sacrifice layer on the mask layer and on a substrate not covered by the mask layer using a plasma ion immersion implantation and deposition (PIIID), and doping a substrate adjacent to both sidewalls of the gate pattern with an impurity. | 12-31-2009 |
20100117141 | Memory cell transistors having limited charge spreading, non-volatile memory devices including such transistors, and methods of formation thereof - In one aspect, a transistor comprises: a substrate body; a tunnel oxide layer on the body; a charge trapping layer on the tunnel oxide layer; a blocking layer on the charge trapping layer; a control gate on the blocking layer, the control gate having first and second sidewalls, the first and second sidewalls being spaced apart from each other by a first distance; and charge confinement features on the body, the charge confinement features being spaced apart from each other by a second distance that is greater than or substantially equal to the first distance, the charge confinement features suppressing or preventing migration of charge present in the charge trapping layer. | 05-13-2010 |
20100210116 | METHODS OF FORMING VAPOR THIN FILMS AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICES INCLUDING THE SAME - A method of forming a vapor thin film is provided, which includes loading a substrate into a chamber, adsorbing a source gas on the substrate by supplying the source gas into the chamber, and forming the thin film on the substrate by supplying a reaction gas into the chamber, wherein the forming of the thin film on the substrate is proceeded under an electric field formed in one direction on the substrate by applying a bias to the substrate. | 08-19-2010 |
20100240207 | METHODS OF MANUFACTURING CHARGE TRAP TYPE MEMORY DEVICES - Manufacturing of a charge trap type memory device can include forming a tunnel insulating layer on a substrate. A charge-trapping layer can be formed on the tunnel insulating layer. A blocking layer can be formed on the charge-trapping layer. Gate electrodes can be formed on the blocking layer and divided by a trench. A portion of the charge-trapping layer aligned with the trench may be converted into a charge-blocking pattern with a vertical side profile by an anisotropic oxidation process. | 09-23-2010 |
20130267092 | Methods of Forming a Fine Pattern on a Substrate and Methods of Forming a Semiconductor Device Having a Fine Pattern - The inventive concept provides methods of manufacturing semiconductor devices having a fine pattern. In some embodiments, the methods comprise forming an etch-target film on a substrate, forming a first mask pattern on the etch-target film, forming a second mask pattern by performing an ion implantation process in the first mask pattern, and etching the etch-target film using the second mask pattern. | 10-10-2013 |
20140264778 | PRECURSOR COMPOSITION FOR DEPOSITION OF SILICON DIOXIDE FILM AND METHOD FOR FABRICATING SEMICONDUCTOR DEVICE USING THE SAME - A precursor composition for forming a silicon dioxide film on a substrate, the precursor composition including at least one precursor compound represented by the following chemical formulas (1), (2), and (3): | 09-18-2014 |
Patent application number | Description | Published |
20090203188 | METHODS OF MANUFACTURING SEMICONDUCTOR DEVICES - Methods of manufacturing a semiconductor device, which can reduce hot electron induced punchthrough (HEIP) and/or improve the operating characteristics of the device include selectively forming an oxynitride layer in a device isolation layer according to the characteristics of transistors isolated by the device isolation layer. The methods include forming first trenches and second trenches on a substrate, forming an oxide layer on the surfaces of the first trenches and the second trenches, selectively forming an oxynitride layer on the second trenches by using plasma ion immersion implantation (PIII), and forming a buried insulating layer in the first trenches and the second trenches. The buried insulating layer may be planarized to form a first device isolation layer in the first trenches and a second device isolation layer in the second trenches. | 08-13-2009 |
20090203189 | METHODS OF MANUFACTURING TRENCH ISOLATION STRUCTURES USING SELECTIVE PLASMA ION IMMERSION IMPLANTATION AND DEPOSITION (PIIID) - A semiconductor device is manufactured by forming trenches in a substrate and selectively performing Plasma Ion Immersion Implantation and Deposition (PIIID) on a subset of the trenches in the substrate. The PIIID may be performed on only a portion of a surface of at least one of the trenches in the substrate. Semiconductor devices can include a semiconductor substrate having first, second and third trenches therein, and an oxide liner layer that fully lines the first trenches, that does not line the second trenches and that partially lines the third trenches. | 08-13-2009 |
20090311846 | METHOD OF FORMING SHALLOW TRENCH ISOLATION REGIONS IN DEVICES WITH NMOS AND PMOS REGIONS - A mask pattern is formed on a semiconductor substrate in which a cell region, a PMOS region, and an NMOS region are defined. Trenches are formed in the cell region, the PMOS region, and the NMOS region. A sidewall oxide layer and a protection layer are formed in the trenches, and a portion of the protection layer in the PMOS region is removed. A first device isolation insulating layer is formed on the substrate, filling the trenches. Portions of the first device isolation insulating layer are removed to expose the mask pattern and the trenches of the cell region and the NMOS region and to leave a portion of the first device isolation insulating layer in the trench in the PMOS region. A liner is formed on the portion of the first device isolation region in the trench in the PMOS region and conforming to sidewalls of the trenches in the cell region and the NMOS region. A second device isolation insulating layer is formed on the substrate, filling the trenches in the cell region and the NMOS region. Portions of the second device isolation insulating layer are removed to expose the mask pattern and to leave portions of the second device isolation insulating layer in the trenches of the cell region and the NMOS region. | 12-17-2009 |