Patent application number | Description | Published |
20080227258 | Methods of forming a semiconductor device - Methods of forming a semiconductor device include forming a mask layer on a semiconductor substrate. The mask layer has vertically and horizontally extending portions. The vertically extending portions have a thickness selected to provide a desired line width to an underlying structure to be formed using the mask layer and a height greater than a height of the horizontally extending portions. The underlying structure is formed using the mask layer. | 09-18-2008 |
20090263749 | METHOD OF FORMING FINE PATTERNS OF SEMICONDUCTOR DEVICE - A method of forming fine patterns of a semiconductor device, in which a plurality of conductive lines formed in a cell array region are integrally formed with contact pads for connecting the conductive lines to a peripheral circuit. In this method, a plurality of mold mask patterns, each including a first portion extending in a first direction and a second portion which is integrally formed with the first portion and extends in a second direction, are formed within a cell block on a substrate comprising a film which is to be etched. A first mask layer covering sidewalls and an upper surface of each of the plurality of mold mask patterns is formed on the substrate. First mask patterns are formed by partially removing the first mask layer so that a first area of the first mask layer remains and a second area of the first mask layer is removed. The first area of the first mask layer covers sidewalls of adjacent mold mask patterns from among the plurality of mold mask patterns by being located between the adjacent mold mask patterns, and the second area of the first mask layer covers portions of the sidewalls of the plurality of mold mask patterns, the portions corresponding to an outermost sidewall of a mold mask pattern block. | 10-22-2009 |
20090286404 | Method of forming minute patterns in semiconductor device using double patterning - A method of forming minute patterns in a semiconductor device, and more particularly, a method of forming minute patterns in a semiconductor device having an even number of insert patterns between basic patterns by double patterning including insert patterns between a first basic pattern and a second basic pattern which are transversely separated from each other on a semiconductor substrate, wherein a first insert pattern and a second insert pattern are alternately repeated to form the insert patterns, the method includes the operation of performing a partial etching toward the second insert pattern adjacent to the second basic pattern, or the operation of forming a shielding layer pattern, thereby forming the even number of insert patterns. | 11-19-2009 |
20090298276 | METHODS OF FORMING SEMICONDUCTOR DEVICE PATTERNS - A first mask layer pattern including a plurality of parallel line portions is formed on an etch target layer on a semiconductor substrate. A sacrificial layer is formed on the first mask layer pattern and portions of the etch target layer between the parallel line portions of the first mask layer pattern. A second mask layer pattern is formed on the sacrificial layer, the second mask layer pattern including respective parallel lines disposed between respective adjacent ones of the parallel line portions of the first mask layer pattern, wherein adjacent line portions of the first mask layer pattern and the second mask layer pattern are separated by the sacrificial layer. A third mask layer pattern is formed including first and second portions covering respective first and second ends of the line portions of the first mask layer pattern and the second mask layer pattern and having an opening at the line portions of the first and second mask layer patterns between the first and second ends. The sacrificial layer and the etch target layer are etched using the third mask layer pattern, the first mask layer pattern and the second mask layer pattern as a mask to thereby form a plurality of parallel trenches in the etch target layer between the line portions of the first and second mask layer patterns. Conductive lines may be formed in the trenches. | 12-03-2009 |
20090305495 | SEMICONDUCTOR DEVICE AND METHODS OF MANUFACTURING THE SAME - A semiconductor device may include plugs disposed in a zigzag pattern, interconnections electrically connected to the plugs and a protection pattern which is interposed between the plugs and the interconnections to selectively expose the plugs. The interconnections may include a connection portion which is in contact with plugs selectively exposed by the protection pattern. A method of manufacturing a semiconductor device includes, after forming a molding pattern and a mask pattern, selectively etching a protection layer using the mask pattern to form a protection pattern exposing a plug. | 12-10-2009 |
20090321931 | Semiconductor device and method of manufacturing the same - A semiconductor device and a method of manufacturing the semiconductor device maintain an insulating distance between contact plugs and wiring lines formed on the contact plugs by using an etch mask pattern for forming contact holes. The device comprises a substrate comprising a plurality of conductive areas; an inter-layer insulating layer on the substrate having a plurality of contact holes through which the conductive areas are exposed; a first insulating layer covering the top surface of the inter-layer insulating layer; a plurality of contact plugs respectively connected to the plurality of conductive areas through the plurality of contact holes, the plurality of contact plugs having top surfaces a distance from each of which to a top surface of the substrate is less than a distance from the top surface of the inter-layer insulating layer to the top surface of the substrate; a plurality of ring-shaped insulating spacers covering inner sidewalls of the inter-layer insulating layer, inner sidewalls of the first insulating layer, and outer edge areas of top surfaces of the contact plugs so as to expose center areas of the top surfaces of the contact plugs in the contact holes; and a plurality of wiring lines above the first insulating layer and on the insulating spacers and respectively electrically connected to the plurality of contact plugs. | 12-31-2009 |
20100155906 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING PATTERNS FOR THE SEMICONDUCTOR DEVICE - Provided are a method of forming patterns for a semiconductor device in which a pattern density is doubled by performing double patterning in a part of a device region while patterns having different widths are being simultaneously formed, and a semiconductor device having a structure to which the method is easily applicable. The semiconductor device includes a plurality of line patterns extending parallel to each other in a first direction. A plurality of first line patterns are alternately selected in a second direction from among the plurality of line patterns and each have a first end existing near the first side. A plurality of second line patterns are alternately selected in the second direction from among the plurality of line patterns and each having a second end existing near the first side. The first line patterns alternate with the second line patterns and the first end of each first line pattern is farther from the first side than the second end of each second line pattern. | 06-24-2010 |
20100155959 | Semiconductor Devices Having Narrow Conductive Line Patterns and Related Methods of Forming Such Semiconductor Devices - Semiconductor devices and methods of forming semiconductor devices are provided in which a plurality of patterns are simultaneously formed to have different widths and the pattern densities of some regions are increased using double patterning. The semiconductor device includes a plurality of conductive lines each including a first line portion and a second line portion, where the first line portion extends on a substrate in a first direction, the second line portion extends from one end of the first line portion in a second direction, and the first direction is different from the second direction; a plurality of contact pads each of which is connected with a respective conductive line of the plurality of conductive lines via the second line portion of the corresponding conductive line; and a plurality of dummy conductive lines each including a first dummy portion extending from a respective contact pad of the plurality of contact pads, in parallel with the corresponding second line portion in the second direction. | 06-24-2010 |
20100221919 | Method of forming patterns for semiconductor device - Provided is a method of forming patterns for a semiconductor device in which fine patterns and large-width patterns are formed simultaneously and adjacent to each other. In the method, a first layer is formed on a substrate so as to cover a first region and a second region which are included in the substrate. Both a blocking pattern covering a portion of the first layer in the first region and a low-density large-width pattern covering a portion of the first layer in the second region are simultaneously formed. A plurality of sacrificial mask patterns are formed on the first layer and the blocking pattern in the first region. A plurality of spacers covering exposed sidewalls of the plurality of sacrificial mask patterns are formed. The plurality of sacrificial mask patterns are removed. The first layer in the first and second regions are simultaneously etched by using the plurality of spacers and the blocking pattern as etch masks in the first region and using the low-density large-width pattern as an etch mask in the second region. | 09-02-2010 |
20100327396 | PATTERN STRUCTURE AND METHOD OF FORMING THE SAME - A pattern structure for a semiconductor device includes a plurality of first patterns, each of the first patterns extending in a first direction in the shape of a line, neighboring first patterns being spaced apart from each other by a gap distance, the plurality of first patterns including a plurality of trenches in parallel with the line shapes, respective trenches being between neighboring first patterns, the plurality of trenches including long trenches and short trenches alternately arranged in a second direction substantially perpendicular to the first direction, and at least a second pattern, the second pattern being coplanar with the first pattern, end portions of the first patterns being connected to the second pattern. | 12-30-2010 |
20110032763 | SEMICONDUCTOR DEVICES INCLUDING FIRST AND SECOND BIT LINES - In some embodiments, a semiconductor device includes first bit lines connected to respective first contacts. Spacers are disposed on sidewalls of the first bit lines. A second bit line is self-alignedly disposed between adjacent spacers, and a second contact is self-aligned with and connected to the second bit line. | 02-10-2011 |
20110062508 | SEMICONDUCTOR DEVICE INCLUDING RESISTOR AND METHOD OF FABRICATING THE SAME - Embodiments of a semiconductor device including a resistor and a method of fabricating the same are provided. The semiconductor device includes a mold pattern disposed on a semiconductor substrate to define a trench, a resistance pattern including a body region and first and second contact regions, wherein the body region covers the bottom and sidewalls of the trench, the first and second contact regions extend from the extending from the body region over upper surfaces of the mold pattern, respectively; and first and second lines contacting the first and second contact regions, respectively. | 03-17-2011 |
20110092048 | METHOD OF FORMING ACTIVE REGION STRUCTURE - A method of forming an active region structure includes preparing a semiconductor substrate having a cell array region and a peripheral circuit region, forming upper cell mask patterns having a line shape in the cell array region, forming first and second peripheral mask patterns in the peripheral circuit region, the first and second peripheral mask patterns being stacked in sequence and covering the peripheral circuit region, and upper surfaces of the upper cell mask patterns forming a step difference with an upper surface of the second peripheral mask pattern, forming spacers on sidewalls of the upper cell mask patterns to expose lower portions of the upper cell mask patterns and the second peripheral mask pattern, and removing the lower portions of the upper cell mask patterns using the spacers and the first and second peripheral mask patterns as an etch mask. | 04-21-2011 |
20110115093 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING THE SAME - A semiconductor device includes a semiconductor substrate including a cell region and a core region adjacent to the cell region, active regions in the cell region and the core region, an interlayer insulating layer covering the active regions, upper cell contacts penetrating the interlayer insulating layer in the cell region, the upper cell contacts being adjacent to each other along a first direction and being electrically connected to the active regions, and core contacts penetrating the interlayer insulating layer in the active regions of the core region, the core contacts being adjacent to each other along the first direction and including upper connection core contacts electrically connected to the active regions, and dummy contacts adjacent to the upper connection core contacts, the dummy contacts being insulated from the active regions. | 05-19-2011 |
20110136340 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device facilitates the forming of a conductive pattern of features having different widths. A conductive layer is formed on a substrate, and a mask layer is formed on the conductive layer. First spaced apart patterns are formed on the mask layer and a second pattern including first and second parallel portion is formed beside the first patterns on the mask layer. First auxiliary masks are formed over ends of the first patterns, respectively, and a second auxiliary mask is formed over the second pattern as spanning the first and second portions of the second pattern. The mask layer is then etched to form first mask patterns below the first patterns and a second mask pattern below the second pattern. The first and second patterns and the first and second auxiliary masks are removed. The conductive layer is then etched using the first and second mask patterns as an etch mask. | 06-09-2011 |
20110227231 | SEMICONDUCTOR DEVICE AND METHODS OF MANUFACTURING THE SAME - A semiconductor device may include plugs disposed in a zigzag pattern, interconnections electrically connected to the plugs and a protection pattern which is interposed between the plugs and the interconnections to selectively expose the plugs. The interconnections may include a connection portion which is in contact with plugs selectively exposed by the protection pattern. A method of manufacturing a semiconductor device includes, after forming a molding pattern and a mask pattern, selectively etching a protection layer using the mask pattern to form a protection pattern exposing a plug. | 09-22-2011 |
20120007165 | SEMICONDUCTOR DEVICES - A semiconductor device includes a substrate, a plurality of gate structures, a first insulating interlayer pattern, and a second insulation layer pattern. The substrate has an active region and a field region, each of the active region and the field region extends in a first direction, and the active region and the field region are alternately and repeatedly arranged in a second direction substantially perpendicular to the first direction. The gate structures are spaced apart from each other in the first direction, each of the gate structures extends in the second direction. The first insulation layer pattern is formed on a portion of a sidewall of each gate structure. The second insulation layer pattern covers the gate structures and the first insulation layer pattern, and has an air tunnel between the gate structures, the air tunnel extending in the second direction. | 01-12-2012 |
20120064710 | METHOD OF MANUFACTURING NONVOLATILE MEMORY DEVICE - In a non-volatile memory device and method of manufacturing the same, a device isolation pattern and an active region extend in a first direction on a substrate. A first dielectric pattern is formed on the active region of the substrate. Conductive stack structures are arranged on the first dielectric pattern and a recess is formed between a pair of the adjacent conductive stack structures. A protection layer is formed on a sidewall of the stack structure to protect the sidewall of the stack structure from over-etching along the first direction. The protection layer includes an etch-proof layer having oxide and arranged on a sidewall of the floating gate electrode and a sidewall of the control gate line and a spacer layer covering the sidewall of the conductive stack structures. | 03-15-2012 |
20120070976 | METHODS OF MANUFACTURING SEMICONDUCTOR DEVICES - A method of manufacturing a semiconductor device includes forming a plurality of preliminary gate structures, forming a capping layer pattern on sidewalls of the plurality of preliminary gate structures, and forming a blocking layer on top surfaces of the plurality of preliminary gate structures and the capping layer pattern such that a void is formed therebetween. The method also includes removing the blocking layer and an upper portion of the capping layer pattern such that at least the upper sidewalls of the plurality of preliminary gate structures are exposed, and a lower portion of the capping layer pattern remains on lower sidewalls of the preliminary gate structures. The method further includes forming a conductive layer on at least the upper sidewalls of the plurality of preliminary gate structures, reacting the conductive layer with the preliminary gate structures, and forming an insulation layer having an air gap therein. | 03-22-2012 |
20130040452 | Methods of Forming Semiconductor Devices Having Narrow Conductive Line Patterns - Semiconductor devices and methods of forming semiconductor devices are provided in which a plurality of patterns are simultaneously formed to have different widths and the pattern densities of some regions are increased using double patterning. The semiconductor device includes a plurality of conductive lines each including a first line portion and a second line portion, where the first line portion extends on a substrate in a first direction, the second line portion extends from one end of the first line portion in a second direction, and the first direction is different from the second direction; a plurality of contact pads each of which is connected with a respective conductive line of the plurality of conductive lines via the second line portion of the corresponding conductive line; and a plurality of dummy conductive lines each including a first dummy portion extending from a respective contact pad of the plurality of contact pads, in parallel with the corresponding second line portion in the second direction. | 02-14-2013 |
20130072022 | METHOD OF FORMING PATTERNS FOR SEMICONDUCTOR DEVICE - Provided is a method of forming patterns for a semiconductor device in which fine patterns and large-width patterns are formed simultaneously and adjacent to each other. In the method, a first layer is formed on a substrate so as to cover a first region and a second region which are included in the substrate. Both a blocking pattern covering a portion of the first layer in the first region and a low-density large-width pattern covering a portion of the first layer in the second region are simultaneously formed. A plurality of sacrificial mask patterns are formed on the first layer and the blocking pattern in the first region. A plurality of spacers covering exposed sidewalls of the plurality of sacrificial mask patterns are formed. The plurality of sacrificial mask patterns are removed. The first layer in the first and second regions are simultaneously etched by using the plurality of spacers and the blocking pattern as etch masks in the first region and using the low-density large-width pattern as an etch mask in the second region. | 03-21-2013 |
20130200487 | PATTERN STRUCTURE AND METHOD OF FORMING THE SAME - A pattern structure for a semiconductor device includes a plurality of first patterns, each of the first patterns extending in a first direction in the shape of a line, neighboring first patterns being spaced apart from each other by a gap distance, the plurality of first patterns including a plurality of trenches in parallel with the line shapes, respective trenches being between neighboring first patterns, the plurality of trenches including long trenches and short trenches alternately arranged in a second direction substantially perpendicular to the first direction, and at least a second pattern, the second pattern being coplanar with the first pattern, end portions of the first patterns being connected to the second pattern. | 08-08-2013 |
20140061758 | NONVOLATILE MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - In a non-volatile memory device and method of manufacturing the same, a device isolation pattern and an active region extend in a first direction on a substrate. A first dielectric pattern is formed on the active region of the substrate. Conductive stack structures are arranged on the first dielectric pattern and a recess is formed between a pair of the adjacent conductive stack structures. A protection layer is formed on a sidewall of the stack structure to protect the sidewall of the stack structure from over-etching along the first direction. The protection layer includes an etch-proof layer having oxide and arranged on a sidewall of the floating gate electrode and a sidewall of the control gate line and a spacer layer covering the sidewall of the conductive stack structures. | 03-06-2014 |
20140087555 | METHOD OF FORMING SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor substrate including a cell region and a core region adjacent to the cell region, active regions in the cell region and the core region, an interlayer insulating layer covering the active regions, upper cell contacts penetrating the interlayer insulating layer in the cell region, the upper cell contacts being adjacent to each other along a first direction and being electrically connected to the active regions, and core contacts penetrating the interlayer insulating layer in the active regions of the core region, the core contacts being adjacent to each other along the first direction and including upper connection core contacts electrically connected to the active regions, and dummy contacts adjacent to the upper connection core contacts, the dummy contacts being insulated from the active regions. | 03-27-2014 |
20140191405 | METHOD OF FORMING PATTERNS FOR SEMICONDUCTOR DEVICE - Provided is a method of forming patterns for a semiconductor device in which fine patterns and large-width patterns are formed simultaneously and adjacent to each other. In the method, a first layer is formed on a substrate so as to cover a first region and a second region which are included in the substrate. Both a blocking pattern covering a portion of the first layer in the first region and a low-density large-width pattern covering a portion of the first layer in the second region are simultaneously formed. A plurality of sacrificial mask patterns are formed on the first layer and the blocking pattern in the first region. A plurality of spacers covering exposed sidewalls of the plurality of sacrificial mask patterns are formed. The plurality of sacrificial mask patterns are removed. The first layer in the first and second regions are simultaneously etched by using the plurality of spacers and the blocking pattern as etch masks in the first region and using the low-density large-width pattern as an etch mask in the second region. | 07-10-2014 |