Patent application number | Description | Published |
20080200007 | Methods of forming semiconductor devices - A method of forming a semiconductor device includes: forming a pattern having trenches on a semiconductor substrate; forming a semiconductor layer on the semiconductor device that fills the trenches; planarizing the semiconductor layer using a first planarization process without exposing the pattern; performing an epitaxy growth process on the first planarized semiconductor layer to form a crystalline semiconductor layer; and planarizing the crystalline semiconductor layer until the pattern is exposed to form a crystalline semiconductor pattern. | 08-21-2008 |
20080206985 | Method of fabricating a semiconductor device - Methods of fabricating a semiconductor device is provided. The methods include forming an interlayer insulating layer on a semiconductor substrate having a first region and a second region. First contact plugs may be formed on a portion of the second region to fill a plurality of first contact holes. A plurality of first contact mask layers and a plurality of first dummy mask layers may be formed on the interlayer insulating layer. The first contact mask layers may be formed in the first region. The first dummy mask layers may be formed in the second region. A plurality of second contact mask layers may be formed between two adjacent first contact mask layers. A plurality of second dummy mask layers may be formed between two adjacent first dummy mask layers. The interlayer insulating layer may be etched using the first contact mask layers and the second contact mask layers as etch stop layers to form a plurality of second contact holes through the interlayer insulating layer formed in the first region. | 08-28-2008 |
20090001051 | Slurry compositions for polishing metal, methods of polishing a metal object and methods of forming a metal wiring using the same - A slurry composition for polishing metal includes a polymeric polishing accelerating agent, the polymeric polishing accelerating agent including a backbone of hydrocarbon and a side substituent having at least one of a sulfonate ion (SO | 01-01-2009 |
20090011599 | SLURRY COMPOSITIONS FOR SELECTIVELY POLISHING SILICON NITRIDE RELATIVE TO SILICON OXIDE, METHODS OF POLISHING A SILICON NITRIDE LAYER AND METHODS OF MANUFACTURING A SEMICONDUCTOR DEVICE USING THE SAME - Slurry compositions for selectively polishing silicon nitride relative to silicon oxide, methods of polishing a silicon nitride layer and methods of manufacturing a semiconductor device using the same are provided. The slurry compositions include a first agent for reducing an oxide polishing rate, an abrasive particle and water, and the first agent includes poly(acrylic acid). The slurry composition may have a high polishing selectivity of silicon nitride relative to silicon oxide to be employed in selectively polishing a silicon nitride layer in a semiconductor manufacturing process. | 01-08-2009 |
20090023265 | ETCHING SOLUTION FOR REMOVAL OF OXIDE FILM, METHOD FOR PREPARING THE SAME, AND METHOD OF FABRICATING SEMICONDUCTOR DEVICE - Provided are an anionic surfactant-containing etching solution for removal of an oxide film, preparation methods thereof, and methods of fabricating a semiconductor device using the etching solution. The etching solution includes a hydrofluoric acid (HF), deionized water, and an anionic surfactant. The anionic surfactant is a compound in which an anime salt is added as a counter ion, as represented by R | 01-22-2009 |
20090025755 | Method for treating substrate - Example embodiments relate to a method of treating a substrate after performing a cleaning step with a liquid chemical in a single substrate spin cleaner. A method of treating a substrate according to example embodiments may include forming a film of deionized water on a surface of the substrate during rinsing, and drying the substrate by supplying a drying gas to the water film on the surface of the substrate. When rinsing the substrate, the rotating speed of the substrate may be reduced to about 50 rpm or less to form a film of water on the surface of the substrate. The film of water may shield the surface of the substrate from direct exposure to atmospheric air. The film of water may be maintained on the surface of the substrate when commencing the supply of the drying gas. Consequently, the number of water marks on the dried substrate may be reduced or prevented. | 01-29-2009 |
20090068839 | Slurry, chemical mechanical polishing method using the slurry, and method of forming metal wiring using the slurry - A slurry, chemical mechanical polishing (CMP) method using the slurry, and method of forming metal wiring using the slurry. The slurry may include a polishing agent, an oxidant, and at least one defect inhibitor to protect the metal film. The CMP method and method of forming metal wiring may employ one or two slurries with at least one of the slurries including at least one defect inhibitor. | 03-12-2009 |
20090098804 | Apparatus for polishing a wafer and method for detecting a polishing end point by the same - A wafer polishing apparatus includes a polishing tape extending between two guide rollers, a first surface of the polishing tape contacting a surface of a wafer to be polished, a polishing head including a pusher pad, the pusher pad adapted to push the polishing tape against the surface of the wafer to be polished, a color image sensor adjacent to the polishing tape, the color image sensor being adapted to detect a color image of the polishing tape and to output a signal corresponding to the detected color image, and a controller connected to the color image sensor, the controller being adapted to receive the signal output from the color image sensor and to determine when a color of the color image detected by the color image sensor changes, a change in the color image indicating a polishing end point. | 04-16-2009 |
20090121296 | Semiconductor device including dummy gate part and method of fabricating the same - In a reliable semiconductor device and a method of fabricating the semiconductor device, a difference in height between upper surfaces of a cell region and a peripheral region (also referred to as a level difference) is minimized by optimizing dummy gate parts. The semiconductor device includes a semiconductor substrate including a cell region and a peripheral region surrounding the cell region, a plurality of dummy active regions surrounded by a device isolating region and formed apart from each other, and a plurality of dummy gate parts formed on the dummy active regions and on the device isolating regions located between the dummy active regions, wherein each of the dummy gate parts covers two or more of the dummy active regions. | 05-14-2009 |
20090137126 | METHOD OF FORMING A SPACER - A sacrificial layer and wet etch are used to form a sidewall spacer so as to prevent damage to the structure on which the spacer is formed and to the underlying substrate as well. Once the structure is formed on the substrate a spacer formation layer is formed to cover the structure, and a sacrificial layer is formed on the spacer formation layer. The sacrificial layer is wet etched to form a sacrificial layer pattern on that portion of the spacer formation layer extending along a sidewall of the structure. The spacer is formed on the sidewall of the structure by wet etching the spacer formation layer using the sacrificial layer pattern as a mask. | 05-28-2009 |
20090155991 | Methods of fabricating a semiconductor device - A method of fabricating a contact plug of a semiconductor device is provided, the method includes forming a gate pattern on a substrate, forming a capping pattern to cover an upper surface and sidewalls of the gate pattern, forming an interlayer insulation layer on the substrate such that the interlayer insulation layer exposes an upper surface of the capping pattern, and removing a portion of the capping pattern and the interlayer insulation layer such that the upper surface of the capping pattern is planarized. | 06-18-2009 |
20090159952 | METHOD OF FABRICATING NON-VOLATILE MEMORY INTEGRATED CIRCUIT DEVICE AND NON-VOLATILE MEMORY INTEGRATED CIRCUIT DEVICE FABRICATED USING THE SAME - A method of fabricating a non-volatile memory integrated circuit device and a non-volatile memory integrated circuit device fabricated by using the method are provided. A device isolation region is formed in a substrate to define a cell array region and a peripheral circuit region. A plurality of first and second pre-stacked gate structures is formed in the cell array region, and each has a structure in which a lower structure, a conductive pattern and a first sacrificial layer pattern are stacked. Junction regions are formed in the cell array region. Spacers are formed on side walls of the first and second pre-stacked gate structures. A second sacrificial layer pattern filling each space between the second pre-stacked gate structures is formed. The first sacrificial layer pattern is removed from each of the first and second pre-stacked gate structures. A damascene metal layer pattern is formed in each of spaces of the first and second pre-stacked gate structures from which the first sacrificial layer pattern is removed, thus completing first and second stacked gate structures. The second sacrificial layer pattern is removed. A stop layer is formed on top surfaces of the first stacked gate structures, top surfaces and side walls of the second stacked gate structures, and a top surface of the substrate. | 06-25-2009 |
20090203213 | Slurry composition for chemical-mechanical polishing and method of chemical-mechanical polishing with the same - Provided may be a slurry composition for chemical mechanical polishing (CMP) and a CMP method using the same. For example, the slurry composition may include a first polishing inhibitor including at least one of PO | 08-13-2009 |
20100009531 | METHODS OF FORMING A CONTACT STRUCTURE - In a method of forming a contact structure, a first insulation layer including a first contact hole is formed on a substrate. A metal layer including tungsten is formed to fill the first contact hole. A planarization process is performed on the metal layer until the first insulation layer is exposed to form a first contact. A second contact is grown from the first contact. The second contact is formed without performing a photolithography process and an etching process to prevent misalignments. | 01-14-2010 |
20100015801 | Method of forming a seam-free tungsten plug - A plug comprises a first insulating interlayer, a tungsten pattern and a tungsten oxide pattern. The first insulating interlayer has a contact hole formed therethrough on a substrate. The tungsten pattern is formed in the contact hole. The tungsten pattern has a top surface lower than an upper face of the first insulating interlayer. The tungsten oxide pattern is formed in the contact hole and on the tungsten pattern. The tungsten oxide pattern has a level face. | 01-21-2010 |
20100019292 | Transistor having a metal nitride layer pattern, etchant and methods of forming the same - A transistor having a metal nitride layer pattern, etchant and methods of forming the same is provided. A gate insulating layer and/or a metal nitride layer may be formed on a semiconductor substrate. A mask layer may be formed on the metal nitride layer. Using the mask layer as an etching mask, an etching process may be performed on the metal nitride layer, forming the metal nitride layer pattern. An etchant, which may have an oxidizing agent, a chelate agent and/or a pH adjusting mixture, may perform the etching. The methods may reduce etching damage to a gate insulating layer under the metal nitride layer pattern during the formation of a transistor. | 01-28-2010 |
20100035436 | Composition for etching silicon oxide layer, method for etching semiconductor device using the same, and composition for etching semiconductor device - A composition for etching a silicon oxide layer, a method of etching a semiconductor device, and a composition for etching a semiconductor device including a silicon oxide layer and a nitride layer including hydrogen fluoride, an anionic polymer, and deionized water, wherein the anionic polymer is included in an amount of about 0.001 to about 2 wt % based on the total weight of the composition for etching a silicon oxide layer, and an etch selectivity of the silicon oxide layer with respect to a nitride layer is about 80 or greater. | 02-11-2010 |
20100062548 | PHOTO KEY AND METHOD OF FABRICATING SEMICONDUCTOR DEVICE USING THE PHOTO KEY - A photo key has a plurality of first regions spaced apart from one another on a semiconductor substrate, and a second region surrounding the first regions, and one of the first regions and the second region constitutes a plurality of photo key regions spaced apart from one another. Each of the photo key regions includes a plurality of first conductive patterns spaced apart from one another; and a plurality of second conductive patterns interposed between the first conductive patterns. | 03-11-2010 |
20100124817 | METHOD OF FABRICATING SELF-ALIGNED CONTACT PAD USING CHEMICAL MECHANICAL POLISHING PROCESS - A method of fabricating a self-aligned contact pad (SAC) includes forming stacks of a conductive line and a capping layer on a semiconductor substrate, spacers covering sidewalls of the stacks, and an insulation layer filling gaps between the stacks and exposing the top of the capping layer, etching the capping layer to form damascene grooves, forming a plurality of first etching masks with a material different from that of the capping layer to fill the damascene grooves without covering the top of the insulation layer, and forming a second etching mask having an opening region that exposes some of the first etching masks and a portion of the insulation layer located between the first etching masks. The method further includes etching the portion of the insulation layer exposed by the opening region using the first and second etching masks to form a plurality of opening holes, removing the second etching mask, forming a conductive layer filling the opening holes to cover the remaining first etching masks and performing a chemical mechanical polishing (CMP) process on the conductive layer using the capping layer as a polishing end point to remove the first etching masks such that a plurality of SAC pads separated from each other are formed that fill the opening holes. | 05-20-2010 |
20100127398 | Wiring structure of a semiconductor device - In a wiring structure of a semiconductor device and a method of manufacturing the same, a wiring structure includes a contact pad, a contact plug, a spacer and an insulation interlayer pattern. The contact pad is electrically connected to a contact region of a substrate. The contact plug is provided on the contact pad and is electrically connected to the contact pad. The spacer faces an upper side surface of the contact pad and sidewalls of the contact plug. The insulation interlayer pattern has an opening, the contact plug and the spacer being provided in the opening. The spacer of the wiring structure may prevent the contact pad from being damaged by a cleaning solution while forming a contact plug to be connected to a capacitor. | 05-27-2010 |
20100187654 | Semiconductor device having capacitor and method of fabricating the same - A semiconductor device having a capacitor and a method of fabricating the same may be provided. A method of fabricating a semiconductor device may include forming an etch stop layer and a mold layer sequentially on a substrate, patterning the mold layer to form a mold electrode hole exposing a portion of the etch stop layer, etching selectively the exposed etch stop layer by an isotropic dry etching process to form a contact electrode hole through the etch stop layer to expose a portion of the substrate, forming a conductive layer on the substrate and removing the conductive layer on the mold layer on the mold layer to form a cylindrical bottom electrode in the mold and contact electrode holes. The isotropic dry etching process may utilize a process gas including main etching gas and selectivity adjusting gas. The selectivity adjusting gas may increase an etch rate of the etch stop layer by more than an etch rate of the mold layer by the isotropic wet etching process. | 07-29-2010 |
20100203725 | Methods of fabricating semiconductor devices and semiconductor devices including a contact plug processed by rapid thermal annealing - A method of fabricating a semiconductor device includes depositing tungsten on an insulating layer in which a contact hole is formed by chemical vapor deposition (CVD), performing chemical mechanical planarization (CMP) on the tungsten to expose the insulating layer and form a tungsten contact plug, and performing rapid thermal oxidation (RTO) on the tungsten contact plug in an oxygen atmosphere such that the tungsten expands volumetrically into tungsten oxide (W | 08-12-2010 |
20110294285 | PHOTO KEY AND METHOD OF FABRICATING SEMICONDUCTOR DEVICE USING THE PHOTO KEY - A photo key has a plurality of first regions spaced apart from one another on a semiconductor substrate, and a second region surrounding the first regions, and one of the first regions and the second region constitutes a plurality of photo key regions spaced apart from one another. Each of the photo key regions includes a plurality of first conductive patterns spaced apart from one another; and a plurality of second conductive patterns interposed between the first conductive patterns. | 12-01-2011 |
20120007018 | SLURRY COMPOSITIONS FOR SELECTIVELY POLISHING SILICON NITRIDE RELATIVE TO SILICON OXIDE, METHODS OF POLISHING A SILICON NITRIDE LAYER AND METHODS OF MANUFACTURING A SEMICONDUCTOR DEVICE USING THE SAME - Slurry compositions for selectively polishing silicon nitride relative to silicon oxide, methods of polishing a silicon nitride layer and methods of manufacturing a semiconductor device using the same are provided. The slurry compositions include a first agent for reducing an oxide polishing rate, an abrasive particle and water. The first agent includes poly(acrylic acid), The slurry composition may have a high polishing selectivity of silicon nitride relative to silicon oxide to be employed in selectively polishing a silicon nitride layer in a semiconductor manufacturing process. | 01-12-2012 |
20120028435 | SEMICONDUCTOR DEVICE INCLUDING DUMMY GATE PART AND METHOD OF FABRICATING THE SAME - In a reliable semiconductor device and a method of fabricating the semiconductor device, a difference in height between upper surfaces of a cell region and a peripheral region (also referred to as a level difference) is minimized by optimizing dummy gate parts. The semiconductor device includes a semiconductor substrate including a cell region and a peripheral region surrounding the cell region, a plurality of dummy active regions surrounded by a device isolating region and formed apart from each other, and a plurality of dummy gate parts formed on the dummy active regions and on the device isolating regions located between the dummy active regions, wherein each of the dummy gate parts covers two or more of the dummy active regions. | 02-02-2012 |