Patent application number | Description | Published |
20100109065 | THREE-DIMENSIONAL NONVOLATILE MEMORY DEVICES HAVING SUB-DIVIDED ACTIVE BARS AND METHODS OF MANUFACTURING SUCH DEVICES - Nonvolatile memory devices are provided and methods of manufacturing such devices. In the method, conductive layers and insulating layers are alternatingly stacked on a substrate. A first sub-active bar is formed which penetrates a first subset of the conductive layers and a first subset of the insulating layers. The first sub-active bar is electrically connected with the substrate. A second sub-active bar is formed which penetrates a second subset of the conductive layers and a second subset of the insulating layers. The second sub-active bar is electrically connected to the first sub-active bar. A width of a bottom portion of the second sub-active bar is less than a width of a top portion of the second sub-active bar. | 05-06-2010 |
20100207184 | Semiconductor devices and methods of forming the same - A semiconductor device includes insulating patterns and gate patterns alternately stacked on a substrate; an active pattern on the substrate, which extends upward along sidewalls of the insulating patterns and the gate patterns; data storage patterns interposed between the gate patterns and the active pattern; and a source/drain region disposed in the active pattern between a pair of gate patterns adjacent to each other. | 08-19-2010 |
20100254191 | SEMICONDUCTOR MEMORY DEVICE COMPRISING THREE-DIMENSIONAL MEMORY CELL ARRAY - A semiconductor memory device includes a substantially planar substrate; a memory string vertical to the substrate, the memory string comprising a plurality of storage cells; and a plurality of elongated word lines, each word line including a first portion substantially parallel to the substrate and connected to the memory string and a second portion substantially inclined relative to the substrate and extending above the substrate, wherein a first group of the plurality of word lines are electrically connected to first conductive lines disposed at a first side of the memory string, and a second group of the plurality of word lines are electrically connected to second conductive lines disposed at a second side of the memory string. | 10-07-2010 |
20100315875 | NON-VOLATILE MEMORY DEVICE HAVING VERTICAL STRUCTURE AND METHOD OF OPERATING THE SAME - Provided is a method of operating a non-volatile memory device. The method includes applying a turn-on voltage to each of first and second string select transistors of a first NAND string, applying first and second voltages to third and fourth string select transistors of a second NAND string, respectively, and applying a high voltage to word lines connected with memory cells of the first and second NAND strings. | 12-16-2010 |
20110065270 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE AND A METHOD OF FABRICATING THE SAME - A method of forming a semiconductor memory device includes stacking a plurality of alternating first insulating layers and first sacrificial layers on a substrate to form a first multilayer structure, forming a first hole through the first multilayer structure, forming a first semiconductor pattern in the first hole, stacking a plurality of alternating second insulating layers and second sacrificial layers on the first multilayer structure to form a second multilayer structure, forming a second hole through the second multilayer structure to be aligned with the first hole, forming a second semiconductor pattern in the second hole, forming a trench to expose sidewalls of the first and second insulating layers at a side of the first and second semiconductor patterns, removing at least some portions of the first and second sacrificial layers to form a plurality of recess regions, forming an information storage layer along surfaces of the plurality of recess regions, and forming a conductive pattern within each recess region. | 03-17-2011 |
20110147801 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a three-dimensional semiconductor device and a method of fabricating the same. The three-dimensional semiconductor device may include a mold structure for providing gap regions and an interconnection structure including a plurality of interconnection patterns disposed in the gap regions. The mold structure may include interlayer molds defining upper surfaces and lower surfaces of the interconnection patterns and sidewall molds defining sidewalls of the interconnection patterns below the interlayer molds. | 06-23-2011 |
20110151667 | Methods of Manufacturing Three-Dimensional Semiconductor Devices and Related Devices - A three-dimensional semiconductor device may include a substrate including wiring and contact regions and a thin film structure on the wiring and contact regions of the substrate. The thin-film structure may include a plurality of alternating wiring layers and inter-layer insulating layers defining a terraced structure in the contact region so that each of the wiring layers includes a contact surface in the contact region that extends beyond others of the wiring layers more distant from the substrate. A plurality of contact structures may extend in a direction perpendicular to a surface of the substrate with each of the contact structures being electrically connected to a contact surface of a respective one of the wiring layers. Related methods are also discussed. | 06-23-2011 |
20110180941 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - Provided is a three-dimensional semiconductor device and method for fabricating the same. The device includes a first electrode structure and a second electrode structure stacked sequentially on a substrate. The first and second electrode structures include stacked first electrodes and stacked second electrodes, respectively. Each of the first and second electrodes includes a horizontal portion parallel with the substrate and an extension portion extending from the horizontal portion along a direction penetrating an upper surface of the substrate. Here, the substrate may be closer to top surfaces of the extension portions of the first electrodes than to the horizontal portion of at least one of the second electrodes. | 07-28-2011 |
20110284943 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a semiconductor device and a method of fabricating the same. The semiconductor device includes: a plurality of conductive patterns stacked on a substrate and spaced apart from each other and a pad pattern including a flat portion extending in a first direction parallel to the substrate from one end of any one of the plurality of conductive patterns, and a landing sidewall portion extending upward from a top surface of the flat portion, wherein a width of a portion of the landing sidewall portion in a second direction parallel to the substrate and perpendicular to the first direction is less than a width of the flat portion. | 11-24-2011 |
20110287623 | Three-Dimensional Nonvolatile Memory Devices Having Sub-Divided Active Bars and Methods of Manufacturing Such Devices - Nonvolatile memory devices are provided and methods of manufacturing such devices. In the method, conductive layers and insulating layers are alternatingly stacked on a substrate. A first sub-active bar is formed which penetrates a first subset of the conductive layers and a first subset of the insulating layers. The first sub-active bar is electrically connected with the substrate. A second sub-active bar is formed which penetrates a second subset of the conductive layers and a second subset of the insulating layers. The second sub-active bar is electrically connected to the first sub-active bar. A width of a bottom portion of the second sub-active bar is less than a width of a top portion of the second sub-active bar. | 11-24-2011 |
20110291172 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a semiconductor device and a method of fabricating the same. The semiconductor device includes a substrate doped with a first conductive type dopant, a plurality of stacked structures arranged side by side on the substrate and extending in a first direction, each of the stacked structures including gate electrodes spaced apart from each other, the plurality of stacked structures including a pair of stacked structures spaced apart from each other at a first interval in a second direction perpendicular to the first direction, and a pick-up region extending in the first direction in the substrate between the pair of stacked structures and doped with the first conductive type dopant. | 12-01-2011 |
20120061744 | THREE DIMENSIONAL SEMICONDUCTOR MEMORY DEVICES - Three dimensional semiconductor memory devices are provided. The three dimensional semiconductor memory device includes a first stacked structure and a second stacked structure sequentially stacked on a substrate. The first stacked structure includes first insulating patterns and first gate patterns which are alternately and repeatedly stacked on a substrate, and the second stacked structure includes second insulating patterns and second gate patterns which are alternately and repeatedly stacked on the first stacked structure. A plurality of first vertical active patterns penetrate the first stacked structure, and a plurality of second vertical active patterns penetrate the second stacked structure. The number of the first vertical active patterns is greater than the number of the second vertical active patterns. | 03-15-2012 |
20120098050 | Three-Dimensional Semiconductor Devices - Three-dimensional semiconductor devices may be provided. The devices may include a stack-structure including gate patterns and an insulation pattern. The stack-structure may further include a first portion and a second portion, and the second portion of the stack-structure may have a narrower width than the first portion. The devices may also include an active pattern that penetrates the stack-structure. The devices may further include a common source region adjacent the stack-structure. The devices may additionally include a strapping contact plug on the common source region. | 04-26-2012 |
20120119287 | 3D SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING SAME - A three dimensional (3D) semiconductor device includes; a vertical channel extending from a lower end proximate a substrate to an upper end and connecting a plurality of memory cells, and a cell array comprising the plurality of cells, wherein the cell array is arranged in a gate stack of layers having a stair-stepped structure disposed on the substrate. The gate stack includes a lower layer including a lower select line coupled to a lower non-memory transistor proximate the lower end, upper layers including conductive lines respectively coupled to an upper non-memory transistor proximate the upper end and connected as a single conductive piece to form an upper select line, and intermediate layers respectively including a word line and coupled to a cell transistor, wherein the intermediate layers are disposed between the lower select line and the upper select line. | 05-17-2012 |
20120322252 | SEMICONDUCTOR MEMORY DEVICE COMPRISING THREE-DIMENSIONAL MEMORY CELL ARRAY - A semiconductor memory device includes a substantially planar substrate; a memory string vertical to the substrate, the memory string comprising a plurality of storage cells; and a plurality of elongated word lines, each word line including a first portion substantially parallel to the substrate and connected to the memory string and a second portion substantially inclined relative to the substrate and extending above the substrate, wherein a first group of the plurality of word lines are electrically connected to first conductive lines disposed at a first side of the memory string, and a second group of the plurality of word lines are electrically connected to second conductive lines disposed at a second side of the memory string. | 12-20-2012 |
20130161831 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICES - A three-dimensional semiconductor device may include a substrate including wiring and contact regions and a thin film structure on the wiring and contact regions of the substrate. The thin-film structure may include a plurality of alternating wiring layers and inter-layer insulating layers defining a terraced structure in the contact region so that each of the wiring layers includes a contact surface in the contact region that extends beyond others of the wiring layers more distant from the substrate. A plurality of contact structures may extend in a direction perpendicular to a surface of the substrate with each of the contact structures being electrically connected to a contact surface of a respective one of the wiring layers. Related methods are also discussed. | 06-27-2013 |
20130201758 | NON-VOLATILE MEMORY DEVICE HAVING VERTICAL STRUCTURE AND METHOD OF OPERATING THE SAME - Provided is a method of operating a non-volatile memory device. The method includes applying a turn-on voltage to each of first and second string select transistors of a first NAND string, applying first and second voltages to third and fourth string select transistors of a second NAND string, respectively, and applying a high voltage to word lines connected with memory cells of the first and second NAND strings. | 08-08-2013 |
20130295761 | Three-Dimensional Semiconductor Device and Method for Fabricating the Same - Provided is a three-dimensional semiconductor device and method for fabricating the same. The device includes a first electrode structure and a second electrode structure stacked sequentially on a substrate. The first and second electrode structures include stacked first electrodes and stacked second electrodes, respectively. Each of the first and second electrodes includes a horizontal portion parallel with the substrate and an extension portion extending from the horizontal portion along a direction penetrating an upper surface of the substrate. Here, the substrate may be closer to top surfaces of the extension portions of the first electrodes than to the horizontal portion of at least one of the second electrodes. | 11-07-2013 |
20140014889 | SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING THE SAME - A semiconductor device includes a plurality of first insulating layers and a plurality of second layers alternately and vertically stacked on a substrate. Each of the plurality of second layers includes a horizontal electrode horizontally separated by a second insulating layer. A contact plug penetrates the plurality of first insulating layers and the second insulating layer of the plurality of second layers. | 01-16-2014 |
20140063890 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device including gate structures provided on a substrate, a separation insulating layer interposed between the gate structures, and a plurality of cell pillars connected to the substrate through each gate structure. Each gate structure may include horizontal electrodes vertically stacked on the substrate, and an interval between adjacent ones of the cell pillars is non-uniform. | 03-06-2014 |
20140183756 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICE - A three-dimensional semiconductor device includes a substrate having a cell array region between first and second contact regions. A first stack includes a plurality of first electrodes vertically provided on the substrate, and a second stack includes a plurality of second electrodes vertically provided on the first stack. The second stack is arranged to expose end portions of the first electrodes on the first contact region and overlap end portions of the first electrodes on the second contact region. | 07-03-2014 |
20140248766 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a three-dimensional semiconductor device and a method of fabricating the same. The three-dimensional semiconductor device may include a mold structure for providing gap regions and an interconnection structure including a plurality of interconnection patterns disposed in the gap regions. The mold structure may include interlayer molds defining upper surfaces and lower surfaces of the interconnection patterns and sidewall molds defining sidewalls of the interconnection patterns below the interlayer molds. | 09-04-2014 |