Patent application number | Description | Published |
20110119564 | FLASH MEMORY DEVICE AND MEMORY SYSTEM COMPRISING SAME - A flash memory device provided here comprises a user data area storing user data; and a security data area storing security data. The security data area stores a security data pattern in which first groups of memory cells storing security data are arranged respectively between second groups of memory cells storing dummy data. | 05-19-2011 |
20110140202 | FLASH MEMORY DEVICE HAVING TRIPLE WELL STRUCTURE - A flash memory device, including a cell array region where a plurality of memory cells are connected in series to a single cell string, the cell array region including a pocket p-well configured to accommodate the plurality of memory cells and an n-well configured to surround the pocket p-well, a first peripheral region where low-voltage (LV) and high-voltage (HV) switches are connected to the memory cells through a word line, and a second peripheral region where bulk voltage switches are connected to bulk regions of the LV and HV switches. | 06-16-2011 |
20110233610 | Nonvolatile Memory Devices Having Memory Cell Transistors Therein with Lower Bandgap Source/Drain Regions - Nonvolatile memory devices include a plurality of nonvolatile memory cell transistors having respective channel regions within a semiconductor layer formed of a first semiconductor material and respective source/drain regions formed of a second semiconductor material, which has a smaller bandgap relative to the first semiconductor material. The source/drain regions can form non-rectifying junctions with the channel regions. The source/drain regions may include germanium (e.g., Ge or SiGe regions), the semiconductor layer may be a P-type silicon layer and the source/drain regions of the plurality of nonvolatile memory cell transistors may be P-type germanium or P-type silicon germanium. | 09-29-2011 |
20110233636 | Semiconductor Memory Device and Method of Manufacturing the Same - A non-volatile memory device and a method of manufacturing the non-volatile memory device are disclosed. The non-volatile memory device includes a substrate, at least two gate structures on the substrate, and at least one impurity region in portions of the substrate between the at least two gate structures. The center of the at least one impurity region is horizontally offset from the center of a region between the at least two gate structures. | 09-29-2011 |
20110260237 | VERTICAL MEMORY DEVICES WITH QUANTUM-DOT CHARGE STORAGE CELLS - A memory device includes a substrate, a semiconductor column extending perpendicularly from the substrate and a plurality of spaced-apart charge storage cells disposed along a sidewall of the semiconductor column. Each of the storage cells includes a tunneling insulating layer disposed on the sidewall of the semiconductor column, a polymer layer disposed on the tunneling insulating layer, a plurality of quantum dots disposed on or in the polymer layer and a blocking insulating layer disposed on the polymer layer. | 10-27-2011 |
20130092996 | NAND FLASH MEMORY DEVICES - NAND flash memory device includes a common bit line, a first cell string including a first string selecting transistor having a first gate length, a second string selecting transistor having a second gate length, first cell transistors each having a third gate length and a first ground selecting transistor having a fourth gate length, a second cell string including a third string selecting transistor having the first gate length, a fourth string selecting transistor having the second gate length, second cell transistors each having the third gate length and a second ground selecting transistor having the fourth gate length and a common source line commonly connected to end portions of the first and second ground selecting transistors included in the first and second cell strings. At least one of the first gate length and the second gate length is smaller than the fourth gate length. | 04-18-2013 |
20130094287 | SEMICONDUCTOR MEMORY DEVICES AND METHODS OF MANUFACTURING THE SAME - A semiconductor device includes a bit line, a first cell string and a second cell string. The first cell string includes a first selecting transistor connected to the bit line in series and having a threshold voltage greater than a first reference voltage, a second selecting transistor having a threshold voltage smaller than a second reference voltage, cell transistors and a ground selecting transistor. The second cell string includes a third selecting transistor connected to the bit line in series and having a threshold voltage smaller than the first reference voltage, a fourth selecting transistor having a threshold voltage greater than the second reference voltage, cell transistors and a ground selecting transistor. A channel region of the first selecting transistor has an enhancement mode and a first conductive type. A channel region of the third selecting transistor has a depletion mode and a second conductive type. | 04-18-2013 |
20130175663 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device includes linear patterns disposed between isolation trenches extending in a first direction in a semiconductor device and having a first crystal direction the same as the semiconductor substrate. A bridge pattern connects at least two adjacent linear patterns and includes a semiconductor material having a second crystal direction different from the first crystal direction. A first isolation layer pattern is disposed in at least one of the isolation trenches in a field region of the semiconductor substrate. Memory cells are disposed on at least one of the linear patterns. | 07-11-2013 |
20130214413 | CONDUCTIVE LINE STRUCTURES AND METHODS OF FORMING THE SAME - Conductive line structures, and methods of forming the same, include first and second pattern structures, insulation layer patterns and an insulating interlayer. The first pattern structure includes a conductive line pattern and a hard mask stacked, and extends in a first direction. The second pattern structure includes a second conductive line pattern and another hard mask stacked, and at least a portion of the pattern structure extends in the first direction. The insulation layer patterns contact end portions of the pattern structures. The first pattern structure and an insulation layer pattern form a closed curve shape in plan view, and the second pattern structure and another insulation layer pattern form another closed curve shape in plan view. The insulating interlayer covers upper portions of the pattern structures and the insulation layer patterns, an air gap between the pattern structures, and another air gap between the insulation layer patterns. | 08-22-2013 |
20130256781 | SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING THE SAME - In a method of manufacturing a semiconductor device, a dielectric layer structure and a control gate layer can be formed sequentially on a substrate. The control gate layer can be partially etched to form a plurality of control gates. A gate spacer and a sacrificial spacer sequentially can be stacked on a sidewall of the control gate and on a portion of the dielectric layer structure. The dielectric layer structure can be partially etched using the sacrificial spacer and the gate spacer as an etching mask to form a plurality of dielectric layer structure patterns. The sacrificial spacer can be removed. An insulating interlayer can be formed on the substrate to form an air gap. The insulating interlayer can cover the dielectric layer structure pattern, the gate spacer and the control gate. The air gap can extend between the adjacent gate spacers and between the adjacent dielectric layer structure patterns. | 10-03-2013 |
20130258771 | METHOD OF PROGRAMMING A NONVOLATILE MEMORY DEVICE - In method of programming a nonvolatile memory device including first and second cell strings that are coupled to one bitline, a first channel of the first cell string and a second channel of the second cell string are precharged by applying a first voltage to the bitline, one cell string is selected from the first and second cell strings, and a memory cell included in the selected cell string is programmed by applying a second voltage greater than a ground voltage and less than the first voltage to the bitline. | 10-03-2013 |
20130270624 | GATE STRUCTURE IN NON-VOLATILE MEMORY DEVICE - A gate structure of a non-volatile memory device and a method of forming the same including a tunnel oxide layer pattern, a charge trap layer pattern, a blocking dielectric layer pattern having the uppermost layer including a material having a first dielectric constant greater than that of a material included in the tunnel oxide layer pattern, and first and second conductive layer patterns. The gate structure includes a first spacer to cover at least the sidewall of the second conductive layer pattern. The gate structure includes a second spacer covering the sidewall of the first spacer and the sidewall of the first conductive layer pattern and including a material having a second dielectric constant equal to or greater than the first dielectric constant. In the non-volatile memory device including the gate structure, erase saturation caused by back tunneling is reduced. | 10-17-2013 |
20140035058 | Semiconductor Devices and Methods of Manufacturing the Same - Methods of manufacturing a semiconductor device include forming a thin layer on a substrate including a first region and a second region and forming a gate insulating layer on the thin layer. A lower electrode layer is formed on the gate insulating layer and the lower electrode layer disposed in the second region is removed to expose the gate insulating layer in the second region. Nitrogen is doped into an exposed portion of the gate insulating layer and the thin layer disposed under the gate insulating layer. An upper electrode layer is formed on the lower electrode layer remaining in the first region and the exposed portion of the gate insulating layer. The upper electrode layer, the lower electrode layer, the gate insulating layer and the thin layer are partially removed to form first and second gate structures in the first and second regions. The process may be simplified. | 02-06-2014 |
20140159137 | GATE STRUCTURE IN NON-VOLATILE MEMORY DEVICE - A gate structure of a non-volatile memory device and a method of forming the same including a tunnel oxide layer pattern, a charge trap layer pattern, a blocking dielectric layer pattern having the uppermost layer including a material having a first dielectric constant greater than that of a material included in the tunnel oxide layer pattern, and first and second conductive layer patterns. The gate structure includes a first spacer to cover at least the sidewall of the second conductive layer pattern. The gate structure includes a second spacer covering the sidewall of the first spacer and the sidewall of the first conductive layer pattern and including a material having a second dielectric constant equal to or greater than the first dielectric constant. In the non-volatile memory device including the gate structure, erase saturation caused by back tunneling is reduced. | 06-12-2014 |
20140209976 | TRANSISTORS AND METHODS OF MANUFACTURING THE SAME - A transistor and a method of manufacturing the same are disclosed. The transistor includes a first epitaxial layer, a channel layer, a gate structure and an impurity region. The first epitaxial layer on a substrate includes a silicon-germanium-tin (Si | 07-31-2014 |
20140361378 | SEMICONDUCTOR DEVICE HAVING STRAIN-RELAXED BUFFER LAYER AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a substrate, a strain-relaxed buffer layer on the substrate, at least one well in the strain-relaxed buffer layer, a first channel layer on the strain-relaxed buffer layer, and a second channel layer on the well. A lattice constant of material constituting the first well is less than a lattice constant of the material constituting the strain-relaxed buffer layer, but a lattice constant of material constituting the second well is greater than the lattice constant of the material constituting the strain-relaxed buffer layer. | 12-11-2014 |
20140374797 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes a substrate, a compound semiconductor layer, and first and second semiconductor patterns. The substrate includes first and second regions. The first semiconductor pattern is on the compound semiconductor layer of the first region and includes an element semiconductor. The second semiconductor pattern is on the compound semiconductor layer of the second region and includes a Group III-V semiconductor material. | 12-25-2014 |
20150035009 | FIN FIELD EFFECT TRANSISTOR, SEMICONDUCTOR DEVICE INCLUDING THE SAME AND METHOD OF FORMING THE SEMICONDUCTOR DEVICE - A fin field effect transistor includes a first fin structure and a second fin structures both protruding from a substrate, first and second gate electrodes on the first and second fin structures, respectively, and a gate dielectric layer between each of the first and second fin structures and the first and second gate electrodes, respectively. Each of the first and second fin structures includes a buffer pattern on the substrate, a channel pattern on the buffer pattern, and an etch stop pattern provided between the channel pattern and the substrate. The etch stop pattern includes a material having an etch resistivity greater than that of the buffer pattern. | 02-05-2015 |
20150061132 | CONDUCTIVE LINE STRUCTURES AND METHODS OF FORMING THE SAME - Conductive line structures, and methods of forming the same, include first and second pattern structures, insulation layer patterns and an insulating interlayer. The first pattern structure includes a conductive line pattern and a hard mask stacked, and extends in a first direction. The second pattern structure includes a second conductive line pattern and another hard mask stacked, and at least a portion of the pattern structure extends in the first direction. The insulation layer patterns contact end portions of the pattern structures. The first pattern structure and an insulation layer pattern form a closed curve shape in plan view, and the second pattern structure and another insulation layer pattern form another closed curve shape in plan view. The insulating interlayer covers upper portions of the pattern structures and the insulation layer patterns, an air gap between the pattern structures, and another air gap between the insulation layer patterns. | 03-05-2015 |