Patent application number | Description | Published |
20080261333 | Methods of forming a material film, methods of forming a capacitor, and methods of forming a semiconductor memory device using the same - A method of forming a material (e.g., ferroelectric) film, a method of manufacturing a capacitor, and a method of forming a semiconductor memory device using the method of forming the (e.g., ferroelectric) film are provided. Pursuant to an example embodiment of the present invention, a method of forming a ferroelectric film includes preparing a substrate, depositing an amorphous ferroelectric film on the substrate, and crystallizing the amorphous ferroelectric film by irradiating it with a laser beam. According to still another example embodiment of the present invention, a method of forming a ferroelectric film may reduce the thermal damage to other elements because the ferroelectric film may be formed at a temperature lower than about 500° C. to about 550° C. | 10-23-2008 |
20080272381 | ORGANIC LIGHT EMITTING DISPLAY WITH SINGLE CRYSTALLINE SILICON TFT AND METHOD OF FABRICATING THE SAME - Provided is an organic light emitting display, in which a semiconductor circuit unit of 2T-1C structure including a switching transistor and a driving transistor formed of single crystalline silicon is formed on a plastic substrate. A method of fabricating the single crystalline silicon includes: growing a single crystalline silicon layer to a predetermined thickness on a crystal growth plate; depositing a buffer layer on the single crystalline silicon layer; forming a partition layer at a predetermined depth in the single crystalline silicon layer by, e.g., implanting hydrogen ions in the single crystalline silicon layer from an upper portion of an insulating layer; attaching a substrate to the buffer layer; and releasing the partition layer of the single crystalline silicon layer by heating the partition layer from the crystal growth plate to obtain a single crystalline silicon layer of a predetermined thickness on the substrate. | 11-06-2008 |
20090057745 | Inverted nonvolatile memory device, stack module, and method of fabricating the same - Example embodiments provide a nonvolatile memory device that may be integrated through stacking, a stack module, and a method of fabricating the nonvolatile memory device. In the nonvolatile memory device according to example embodiments, at least one bottom gate electrode may be formed on a substrate. At least one charge storage layer may be formed on the at least one bottom gate electrode, and at least one semiconductor channel layer may be formed on the at least one charge storage layer. | 03-05-2009 |
20090191673 | Method of manufacturing thin film transistor - A thin film transistor (TFT) and a method of manufacturing the same are provided. The TFT includes a transparent substrate, an insulating layer on a region of the transparent substrate, a monocrystalline silicon layer, which includes source, drain, and channel regions, on the insulating layer and a gate insulating film and a gate electrode on the channel region of the monocrystalline silicon layer. | 07-30-2009 |
20090315590 | Logic circuits, inverter devices and methods of operating the same - An inverter device includes at least a first transistor connected between a power source node and ground. The first transistor includes a first gate and a first terminal that are internally capacitive-coupled to control a boost voltage at a boost node. The first terminal is one of a first source and a first drain of the first transistor. | 12-24-2009 |
20100041214 | Single crystal substrate and method of fabricating the same - A high quality single crystal substrate and a method of fabricating the same are provided. The method of fabricating a single crystal substrate includes: forming an insulator on a substrate; forming a window in the insulator, the window exposing a portion of the substrate; forming an epitaxial growth silicon or germanium seed layer on the portion of the substrate exposed through the window; depositing a silicon or germanium material layer, which are crystallization target material layers, on the epitaxial growth silicon 6r germanium seed layer and the insulator; and crystallizing the crystallization target material layer by melting and cooling the crystallization target material layer. | 02-18-2010 |
20100059744 | Transistor, inverter including the same and methods of manufacturing transistor and inverter - A transistor, an inverter including the transistor, and methods of manufacturing the inverter and the transistor. A gate insulating layer of the transistor has a charge trap region. A threshold voltage may be moved in a positive (+) direction by trapping charges in the charge trap region. The transistor may be an enhancement mode oxide thin-film transistor (TFT) and may be used as an element of the inverter. | 03-11-2010 |
20100112763 | Semiconductor device including gate stack formed on inclined surface and method of fabricating the same - A semiconductor device includes a transistor. The transistor includes a substrate having an inclined surface, a first upper surface extending from a lower portion of the inclined surface, and a second upper surface extending from an upper end of the inclined surface. A gate stack structure is formed on the inclined surface and includes a gate electrode. A first impurity region formed on one of the first and second upper surfaces contacts the gate stack structure. A second impurity region formed on the second upper surface contacts the gate stack structure. A channel between the first and second impurity regions is formed along the inclined surface in a crystalline direction. | 05-06-2010 |
20100200834 | Crystalline nanowire substrate, method of manufacturing the same, and method of manufacturing thin film transistor using the same - Example embodiments relate to a crystalline nanowire substrate having a structure in which a crystalline nanowire film having a relatively fine line-width may be formed on a substrate, a method of manufacturing the same, and a method of manufacturing a thin film transistor using the same. The method of manufacturing the crystalline nanowire substrate may include preparing a substrate, forming an insulating film on the substrate, forming a silicon film on the insulating film, patterning the insulating film and the silicon film into a strip shape, reducing the line-width of the insulating film by undercut etching at least one lateral side of the insulating film, and forming a self-aligned silicon nanowire film on an upper surface of the insulating film by melting and crystallizing the silicon film. | 08-12-2010 |
20100208368 | Microlens, an image sensor including a microlens, method of forming a microlens and method for manufacturing an image sensor - A microlens, an image sensor including the microlens, a method of forming the microlens and a method of manufacturing the image sensor are provided. The microlens includes a polysilicon pattern, having a cylindrical shape, formed on a substrate, and a round-type shell portion enclosing the polysilicon pattern. The microlens may further include a filler material filling an interior of the shell portion, or a second shell portion covering the first shell portion. The method of forming a microlens includes forming a silicon pattern on a semiconductor substrate having a lower structure, forming a capping film on the semiconductor substrate over the silicon pattern, annealing the silicon pattern and the capping film altering the silicon pattern to a polysilicon pattern having a cylindrical shape and the capping film to a shell portion for a round-type microlens, and filling an interior of the shell portion with a lens material through an opening between the semiconductor substrate and an edge of the shell portion. The image sensor includes a microlens formed by a similar method and a photodiode having a cylindrical shape. | 08-19-2010 |
20100264956 | Inverter, method of manufacturing the same, and logic circuit including the inverter - Provided are an inverter, a method of manufacturing the inverter, and a logic circuit including the inverter. The inverter may include a first transistor and a second transistor having different channel layer structures. A channel layer of the first transistor may include a lower layer and an upper layer, and a channel layer of the second transistor may be the same as one of the lower layer and the upper layer. At least one of the lower layer and the upper layer may be an oxide layer. The inverter may be an enhancement/depletion (E/D) mode inverter or a complementary inverter. | 10-21-2010 |
20110008920 | Microlens, an image sensor including a microlens, method of forming a microlens and method for manufacturing an image sensor - A microlens, an image sensor including the microlens, a method of forming the microlens and a method of manufacturing the image sensor are provided. The microlens includes a polysilicon pattern, having a cylindrical shape, formed on a substrate, and a round-type shell portion enclosing the polysilicon pattern. The microlens may further include a filler material filling an interior of the shell portion, or a second shell portion covering the first shell portion. The method of forming a microlens includes forming a silicon pattern on a semiconductor substrate having a lower structure, forming a capping film on the semiconductor substrate over the silicon pattern, annealing the silicon pattern and the capping film altering the silicon pattern to a polysilicon pattern having a cylindrical shape and the capping film to a shell portion for a round-type microlens, and filling an interior of the shell portion with a lens material through an opening between the semiconductor substrate and an edge of the shell portion. The image sensor includes a microlens formed by a similar method and a photodiode having a cylindrical shape. | 01-13-2011 |
20110057195 | POLY-SI THIN FILM TRANSISTOR AND ORGANIC LIGHT-EMITTING DISPLAY HAVING THE SAME - A thin film transistor comprises an Si-based channel having a nonlinear electron-moving path, a source and a drain disposed at both sides of the channel, a gate disposed above the channel, an insulator interposed between the channel and the gate, and a substrate supporting the channel and the source and the drain disposed at either side of the channel respectively. | 03-10-2011 |
20110089998 | Logic circuits, inverter devices and methods of operating the same - An inverter device includes at least a first transistor connected between a power source node and ground. The first transistor includes a first gate and a first terminal that are internally capacitive-coupled to control a boost voltage at a boost node. The first terminal is one of a first source and a first drain of the first transistor. | 04-21-2011 |
20110230021 | Inverter, method of manufacturing the same, and logic circuit including the inverter - Provided are an inverter, a method of manufacturing the inverter, and a logic circuit including the inverter. The inverter may include a first transistor and a second transistor having different channel layer structures. A channel layer of the first transistor may include a lower layer and an upper layer, and a channel layer of the second transistor may be the same as one of the lower layer and the upper layer. At least one of the lower layer and the upper layer may be an oxide layer. The inverter may be an enhancement/depletion (E/D) mode inverter or a complementary inverter. | 09-22-2011 |
20110263088 | POLY-SI THIN FILM TRANSISTOR AND ORGANIC LIGHT-EMITTING DISPLAY HAVING THE SAME - A thin film transistor comprises an Si-based channel having a nonlinear electron-moving path, a source and a drain disposed at both sides of the channel, a gate disposed above the channel, an insulator interposed between the channel and the gate, and a substrate supporting the channel and the source and the drain disposed at either side of the channel respectively. | 10-27-2011 |