Patent application number | Description | Published |
20080203590 | INTEGRATED CIRCUIT SEMICONDUCTOR DEVICE WITH OVERLAY KEY AND ALIGNMENT KEY AND METHOD OF FABRICATING THE SAME - An integrated circuit semiconductor device including a cell region formed in a first portion of a silicon substrate, the cell region including a first trench formed in the silicon substrate, a first buried insulating layer filled in the first trench, a first insulating pattern formed over the silicon substrate, and a first conductive pattern formed over the first insulating pattern. An overlay key region is formed in a second portion of the silicon substrate and includes a second trench formed in the silicon substrate, a second insulating pattern formed over the silicon substrate and used as an overlay key, and a second conductive pattern formed over the second insulating pattern and formed by correcting overlay and alignment errors using the second insulating pattern. An alignment key region is formed in a third portion of the silicon substrate and includes a third trench formed in the silicon substrate and used as an alignment key, a second buried insulating layer formed in the third trench, and a third conductive pattern formed over the second buried insulating layer and the third trench. | 08-28-2008 |
20080220611 | Method of forming fine patterns of semiconductor devices using double patterning - A method of forming fine patterns of semiconductor device according to an example embodiment may include forming a plurality of multi-layered mask patterns by stacking first mask patterns and buffer mask patterns on an etch film to be etched on a substrate, forming, on the etch film, second mask patterns in spaces between the plurality of multi-layered mask patterns, removing the second mask patterns to expose upper surfaces of the first mask patterns, and forming the fine patterns by etching the etch film using the first and second mask patterns as an etch mask. This example embodiment may result in the formation of diverse dimensions at diverse pitches on a single substrate. | 09-11-2008 |
20100120178 | Process Control Methods and Systems - A process control method includes setting first through fourth conditions, forming a first pattern by performing a first process on a semiconductor wafer, measuring the first pattern using a first measuring equipment to obtain a first result, comparing the first result with the first condition, forming a second pattern by performing a second process on the semiconductor wafer, comparing a period of the second process with the second condition, measuring the second pattern using a second measuring equipment to obtain a second result, comparing the second result with the third condition, forming a third pattern by performing a third process on the semiconductor wafer, measuring the third pattern using the a second measuring equipment to obtain a third result, and comparing the third result with the fourth condition. | 05-13-2010 |
20100248492 | Method of forming patterns of semiconductor device - A method of forming fine patterns of a semiconductor device by using carbon (C)-containing films includes forming an etching target film on a substrate including first and second regions; forming a plurality of first C-containing film patterns on the etching target film in the first region; forming a buffer layer which covers top and side surfaces of the plurality of first C-containing film patterns; forming a second C-containing film; removing the second C-containing film in the second region; exposing the plurality of first C-containing film patterns by removing a portion of the buffer layer in the first and second regions; and etching the etching target film by using the plurality of first C-containing film patterns, and portions of the second C-containing film which remain in the first region, as an etching mask. | 09-30-2010 |
20110183505 | METHODS OF FORMING FINE PATTERNS IN INTEGRATED CIRCUIT DEVICES AND METHODS OF MANUFACTURING INTEGRATED CIRCUIT DEVICES INCLUDING THE SAME - A method of fabricating an integrated circuit device includes forming first and second preliminary mask structures on a hard mask layer in respective first and second regions of the substrate. Spacers are formed on opposing sidewalls of the first and second preliminary mask structures, and the first preliminary mask structure is selectively removed from between the spacers in the first region. The hard mask layer is etched using the spacers and the second preliminary mask structure as a mask to define a first mask pattern including the opposing sidewall spacers with a void therebetween in the first region and a second mask pattern including the opposing sidewall spacers and the second preliminary mask structure therebetween in the second region. An insulation layer is patterned using the first and second mask patterns as respective masks to define a first trench in the first region and a second trench in the second region having a greater width than the first trench, and first and second conductive patterns are formed in the first and second trenches. | 07-28-2011 |
20120080723 | FABRICATING METHOD OF SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE FABRICATED USING THE SAME METHOD - A fabricating method of a semiconductor device includes providing a substrate having a first region and a second region, forming a plurality of first gates in the first region of the substrate, such that the first gates are spaced apart from each other at a first pitch, forming a plurality of second gates in the second region of the substrate, such that the second gates are spaced apart from each other at a second pitch different from the first pitch, implanting an etch rate adjusting dopant into the second region to form implanted regions, while blocking the first region, forming a first trench by etching the first region between the plurality of first gates, and forming a second trench by etching the second region between the plurality of second gates. | 04-05-2012 |
20120088359 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - Example embodiments relate to a method for manufacturing a semiconductor device, wherein a metal gate electrode therein may be formed without a void in a lower portion of the metal gate electrode. The method may include providing a substrate, forming a dummy gate electrode on the substrate, forming a gate spacer on the substrate to be contiguous to the dummy gate electrode, forming a first recess by simultaneously removing a portion of the dummy gate electrode and a portion of the gate spacer, the first recess having an upper end wider than a lower end, forming a second recess by removing the dummy gate electrode remaining after forming the first recess, and forming a metal gate electrode by depositing a metal to fill the first and second recesses. | 04-12-2012 |
20120135577 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICES - A method of manufacturing a semiconductor device, including the second sacrificial layer receiving a gate structure include a metal and a spacer on a sidewall of the gate structure therethrough being formed on a substrate. The second sacrificial layer is removed. A second etch stop layer and an insulating interlayer are sequentially formed on the gate structure, the spacer and the substrate. An opening passing through the insulating interlayer is formed to expose a portion of the gate structure, a portion of the spacer and a portion of the second etch stop layer on a portion of the substrate. The second etch stop layer being exposed through the opening is removed. The contact being electrically connected to the gate structure and the substrate and filling the opening is formed. The semiconductor device having the metal gate electrode and the shared contact has a desired leakage current characteristic and resistivity characteristics. | 05-31-2012 |
20120156867 | METHODS OF MANUFACTURING A SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a gate structure through a first insulating interlayer on a substrate such that the gate structure includes a spacer on a sidewall thereof, forming a first hard mask on the gate structure, partially removing the first insulating interlayer using the first hard mask as an etching mask to form a first contact hole such that the first contact hole exposes a top surface of the substrate, forming a metal silicide pattern on the top surface of the substrate exposed by the first contact hole, and forming a plug electrically connected to the metal silicide pattern. | 06-21-2012 |
20120302034 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device is provided. The method includes providing a substrate having a protruding channel region, forming a gate insulation layer surrounding the protruding channel region, forming a sacrificial layer having an etch selectivity varying in a thickness direction of the sacrificial layer, on the gate insulation layer, and performing a gate-last process to form a gate electrode on the gate insulation layer in place of the sacrificial layer. | 11-29-2012 |
20120322224 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - In a method of fabricating a semiconductor device, a target layer and a first material layer are sequentially formed on a substrate. A plurality of second material layer patterns are formed on the first material layer, the second material layer patterns extending in a first horizontal direction. A plurality of hardmask patterns extending in a second horizontal direction are formed on the plurality of second material layer patterns and the first material layer, wherein the second horizontal direction is different from the first horizontal direction. A first material layer pattern is formed by etching the first material layer using the plurality of hardmask patterns and the plurality of second material layer patterns as etch masks. A target layer pattern with a plurality of holes is formed by etching the target layer using the first material layer pattern as an etch mask. | 12-20-2012 |
20120322268 | METHOD OF FORMING A PATTERN - A method of forming a pattern includes forming a mask pattern on a substrate; etching the substrate by deep reactive ion etching (DRIE) and by using the mask pattern as an etch mask; partially removing the mask pattern to expose a portion of an upper surface of the substrate; and etching the exposed portion of the upper surface of the substrate. In the method, when a pattern is formed by DRIE, an upper portion of the pattern does not protrude or scarcely protrudes, and scallops of a sidewall of the pattern are smooth, and thus a conformal material layer may be easily formed on a surface of the pattern. | 12-20-2012 |
20130008867 | METHODS FOR MANUFACTURING MAGNETIC TUNNEL JUNCTION STRUCTURE - Methods for manufacturing a magnetic tunnel junction structure include forming a magnetic tunnel junction (MTJ) layer by sequentially stacking a first ferromagnetic layer, a tunnel insulation layer, and a second ferromagnetic layer on a substrate, forming a mask pattern on the MTJ layer, and etching at least a portion of the MTJ layer in an etching chamber using the mask pattern as an etch mask, wherein the etching of the at least a portion of the MTJ layer includes applying a RF source power to a first electrode of the etching chamber as first RF power in a first pulselike mode, and applying a RF bias power to a second electrode of the etching chamber as second RF power in a second pulselike mode. The second pulselike mode of the RF bias power has a different phase from the first pulselike mode of the RF source power. | 01-10-2013 |
20130023118 | METHOD FOR FORMING PATTERN AND METHOD FOR FABRICATING SEMICONDUCTOR DEVICE USING THE SAME - There is provided a method for forming a pattern comprising, forming a first layer on an underlying layer including a substrate, forming a first mask pattern including a first opening pattern on the first layer, and forming a second mask pattern including a second opening pattern on the first mask pattern, wherein the second opening pattern includes a first region overlapping the first opening pattern and a second region not overlapping the first opening pattern, and etching is performed using the second mask pattern such that a third opening pattern corresponding to the first region and exposing an upper surface of the underlying layer is formed in the first layer, and a fourth opening pattern corresponding to the second region is formed in the first mask pattern. | 01-24-2013 |
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 |
20130143372 | METHODS OF FORMING PATTERNS OF A SEMICONDUCTOR DEVICE - Methods of forming patterns of a semiconductor device are provided. The methods may include forming a hard mask film on a semiconductor substrate. The methods may include forming first and second sacrificial film patterns that are spaced apart from each other on the hard mask film. The methods may include forming a first spacer on opposing sidewalls of the first sacrificial film pattern and a second spacer on opposing sidewalls of the second sacrificial film pattern. The methods may include removing the first and second sacrificial film patterns. The methods may include trimming the second spacer such that a line width of the second spacer becomes smaller than a line width of the first spacer. The methods may include forming first and second hard mask film patterns by etching the hard mask film using the first spacer and the trimmed second spacer as an etch mask. | 06-06-2013 |
20130149499 | MAGNETIC DEVICES AND METHODS OF MANUFACTURING THE SAME - Magnetic devices, and methods of manufacturing the same, include a stack structure including at least one magnetic layer, etched using an etching gas including at least 70 volume percent of a hydrogen-containing gas and at least 2 volume percent of CO gas. | 06-13-2013 |
20130277720 | FIN FIELD EFFECT TRANSISTORS - Field effect transistors include a source region and a drain region on a substrate, a fin base protruding from a top surface of the substrate, a plurality of fin portions extending upward from the fin base and connecting the source region with the drain region, a gate electrode on the fin portions, and a gate dielectric between the fin portions and the gate electrode. | 10-24-2013 |
20140057427 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - Example embodiments relate to a method for manufacturing a semiconductor device, wherein a metal gate electrode therein may be formed without a void in a lower portion of the metal gate electrode. The method may include providing a substrate, forming a dummy gate electrode on the substrate, forming a gate spacer on the substrate to be contiguous to the dummy gate electrode, forming a first recess by simultaneously removing a portion of the dummy gate electrode and a portion of the gate spacer, the first recess having an upper end wider than a lower end, forming a second recess by removing the dummy gate electrode remaining after forming the first recess, and forming a metal gate electrode by depositing a metal to fill the first and second recesses. | 02-27-2014 |
20140106567 | METHODS OF FORMING FINE PATTERNS IN SEMICONDUCTOR DEVICES - Methods of forming a semiconductor device may include providing a feature layer having a first region and a second region. The methods may also include forming a dual mask layer on the feature layer. The methods may further include forming a variable mask layer on the dual mask layer. The methods may additionally include forming a first structure on the feature layer in the first region and a second structure on the feature layer in the second region by patterning the variable mask layer and the dual mask layer. The methods may also include forming a first spacer on a sidewall of the first structure and a second spacer on a sidewall of the second structure. The methods may further include removing the first structure while maintaining at least a portion of the second structure. | 04-17-2014 |
20140110757 | FABRICATING METHOD OF SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE FABRICATED USING THE SAME METHOD - A fabricating method of a semiconductor device includes providing a substrate having a first region and a second region, forming a plurality of first gates in the first region of the substrate, such that the first gates are spaced apart from each other at a first pitch, forming a plurality of second gates in the second region of the substrate, such that the second gates are spaced apart from each other at a second pitch different from the first pitch, implanting an etch rate adjusting dopant into the second region to form implanted regions, while blocking the first region, forming a first trench by etching the first region between the plurality of first gates, and forming a second trench by etching the second region between the plurality of second gates. | 04-24-2014 |
20140328125 | METHODS OF FORMING FINE PATTERNS IN SEMICONDUCTOR DEVICES - Methods of forming a semiconductor device may include providing a feature layer having a first region and a second region. The methods may also include forming a dual mask layer on the feature layer. The methods may further include forming a variable mask layer on the dual mask layer. The methods may additionally include forming a first structure on the feature layer in the first region and a second structure on the feature layer in the second region by patterning the variable mask layer and the dual mask layer. The methods may also include forming a first spacer on a sidewall of the first structure and a second spacer on a sidewall of the second structure. The methods may further include removing the first structure while maintaining at least a portion of the second structure. | 11-06-2014 |
20150076616 | SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a gate structure through a first insulating interlayer on a substrate such that the gate structure includes a spacer on a sidewall thereof, forming a first hard mask on the gate structure, partially removing the first insulating interlayer using the first hard mask as an etching mask to form a first contact hole such that the first contact hole exposes a top surface of the substrate, forming a metal silicide pattern on the top surface of the substrate exposed by the first contact hole, and forming a plug electrically connected to the metal silicide pattern. | 03-19-2015 |
20150076617 | METHODS OF FORMING PATTERNS OF A SEMICONDUCTOR DEVICE - Methods of forming patterns of a semiconductor device are provided. The methods may include forming a hard mask film on a semiconductor substrate. The methods may include forming first and second sacrificial film patterns that are spaced apart from each other on the hard mask film. The methods may include forming a first spacer on opposing sidewalls of the first sacrificial film pattern and a second spacer on opposing sidewalls of the second sacrificial film pattern. The methods may include removing the first and second sacrificial film patterns. The methods may include trimming the second spacer such that a line width of the second spacer becomes smaller than a line width of the first spacer. The methods may include forming first and second hard mask film patterns by etching the hard mask film using the first spacer and the trimmed second spacer as an etch mask. | 03-19-2015 |