Patent application number | Description | Published |
20090191687 | METHOD OF FILLING A TRENCH AND METHOD OF FORMING AN ISOLATING LAYER STRUCTURE USING THE SAME - A method of filling a trench in a substrate ensures that a void or seam is not left in the material occupying the trench. First, a preliminary insulating layer is formed so as to extend contiguously along the bottom and sides of the trench and along an upper surface of the substrate. Impurities are then implanted into a portion of the preliminary insulating layer adjacent the top of the first trench to form a first insulating layer having a doped region and an undoped region. The doped region is removed to form a first insulating layer pattern at the bottom and sides of the first trench, and which first insulating layer pattern defines a second trench. The second trench is then filled with insulating material. | 07-30-2009 |
20100240194 | Method of fabricating semiconductor device - A method of fabricating a semiconductor device, the method including sequentially forming a pad oxide layer and a nitride layer on a substrate; etching the nitride layer, the pad oxide layer, and the substrate to form a trench; forming a sidewall oxide layer on a sidewall and a bottom of the trench; forming a oxide layer liner including nitrogen on the sidewall oxide layer; and forming a gap fill layer on the oxide layer liner | 09-23-2010 |
20100248471 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - Provided is a method for fabricating a semiconductor device, including forming an interconnect structure including first and second interconnects and an insulating material between the first and second interconnects, forming a first mask layer and a second mask layer having a plurality of micropores sequentially on the interconnect structure, coalescing the plurality of micropores in the second mask layer with each other and forming a plurality of first microholes in the second mask layer, forming a plurality of second microholes in the first mask layer using the plurality of first microholes, and removing the insulating material using the first mask layer with the plurality of second microholes as an etch mask so as to form an air-gap between the first and second interconnects. | 09-30-2010 |
20110039393 | METHOD OF FABRICATING A SEMICONDUCTOR MICROSTRUCTURE - Provided is a method of fabricating a semiconductor microstructure, the method including forming a lower material layer on a semiconductor substrate, the lower material layer including a nitride of a Group III-element; forming a mold material layer on the lower material layer; forming an etching mask on the mold material layer, the etching mask being for forming a structure in the mold material layer; anisotropic-etching the mold material layer and the lower material layer by using the etching mask; and isotropic-etching the mold material layer and the lower material layer. | 02-17-2011 |
20110241184 | INTEGRATED CIRCUIT DEVICES HAVING SELECTIVELY STRENGTHENED COMPOSITE INTERLAYER INSULATION LAYERS AND METHODS OF FABRICATING THE SAME - An integrated circuit device includes a plurality of stacked circuit layers, at least one of the plurality of circuit layers including a composite interlayer insulation layer including laterally adjacent first and second insulating material regions having different mechanical strengths and dielectric properties and a plurality of circuit components disposed in the composite interlayer insulation layer. The first insulating material region may have a lower dielectric constant and a lower mechanical strength than the second insulating material region such that, for example, the first insulating material region may be positioned near signal lines or other circuit features to reduce capacitance while using the second insulating material region near a location that is susceptible to localized mechanical stress, such as a fuse location, an external connection bonding location or a scribe line location. | 10-06-2011 |
20110256708 | Methods of Manufacturing Flash Memory Devices by Selective Removal of Nitrogen Atoms - A method of manufacturing a flash memory device includes: forming a dielectric layer on an active region of a substrate having an isolation region and the active region; forming a floating gate on the dielectric layer; forming an isolation layer in the isolation region; forming a nitride layer including a first nitride layer portion formed on an exposed surface of the floating gate and a second nitride layer portion formed on an exposed surface of the isolation layer; selectively removing nitrogen atoms from the second nitride layer portion of the nitride layer; forming an inter-gate dielectric layer on both the first nitride layer portion and the isolation layer; and forming a control gate on the inter-gate dielectric layer. | 10-20-2011 |
20110281427 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE - Example embodiments herein relate to a method of fabricating a semiconductor device. The method may include forming a liner insulating layer on a surface of a gate pattern to have a first thickness. Subsequently, a gap fill layer may be formed on the liner insulating layer by flowable chemical vapor deposition (FCVD) or spin-on-glass (SOG). The liner insulating layer and the gap fill layer may be recessed such that the liner insulating layer has a second thickness, which is smaller than the first thickness, in the region in which a metal silicide will be formed. Metal silicide may be formed on the plurality of gate patterns to have a relatively uniform thickness using the difference in thickness of the liner insulating layer. | 11-17-2011 |
20110306195 | METHOD OF MANUFACTURING VERTICAL SEMICONDUCTOR DEVICES - In a vertical semiconductor device and a method of manufacturing a vertical semiconductor device, sacrificial layers and insulating interlayers are repeatedly and alternately stacked on a substrate. The sacrificial layers include boron (B) and nitrogen (N) and have an etching selectivity with respect to the insulating interlayers. Semiconductor patterns are formed on the substrate through the sacrificial layers and the insulating interlayers. The sacrificial layers and the insulating interlayers are at least partially removed between the semiconductor patterns to form sacrificial layer patterns and insulating interlayer patterns on sidewalls of the semiconductor patterns. The sacrificial layer patterns are removed to form grooves between the insulating interlayer patterns. The grooves expose portions of the sidewalls of the semiconductor patterns. A gate structure is formed in each of the grooves. | 12-15-2011 |
20120034757 | METHODS OF FABRICATING SEMICONDUCTOR DEVICES HAVING VARIOUS ISOLATION REGIONS - A method of fabricating a semiconductor device includes forming a first trench and a second trench in a semiconductor substrate, forming a first insulator to completely fill the first trench, the first insulator covering a bottom surface and lower sidewalls of the second trench and exposing upper sidewalls of the second trench, and forming a second insulator on the first insulator in the second trench. | 02-09-2012 |
20120058647 | OXIDATION-PROMOTING COMPOSITIONS, METHODS OF FORMING OXIDE LAYERS, AND METHODS OF FABRICATING SEMICONDUCTOR DEVICES - Provided according to embodiments of the present invention are an oxidation-promoting compositions, methods of forming oxide layers, and methods of fabricating semiconductor devices. In some embodiments of the invention, the oxidation-promoting composition includes an oxidation-promoting agent having a structure of A-M-L, wherein L is a functional group that is chemisorbed to a surface of silicon, silicon oxide, silicon nitride, or metal, A is a thermally decomposable oxidizing functional group, and M is a moiety that allows A and L to be covalently bonded to each other. | 03-08-2012 |
20120252182 | SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING THE SAME - A method of fabricating a semiconductor device includes providing a substrate including a first region and a second region, forming a first trench having a first width in the first region and a second trench having a second width in the second region, and the second width is greater than the first width. The method also includes forming a first insulation layer in the first and second trenches, removing the first insulation layer in the second trench to form a first insulation pattern that includes the first insulation layer remaining in the first trench, forming on the substrate a second insulation layer that fills the second trench, and the second insulation layer includes a different material from the first insulation layer. | 10-04-2012 |
20130052780 | SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING THE SAME - In a method of fabricating a semiconductor device, isolation structures are formed in a substrate to define active regions. Conductive structures are formed on the substrate to cross over at least two of the active regions and the isolation structures, the conductive structures extending in a first direction. An interfacial layer is conformally formed on the substrate in contact with the conductive structures. A first insulation layer is provided on the interfacial layer, wherein the first insulation layer is formed using a flowable chemical vapor deposition (CVD) process, and wherein the interfacial layer reduces a tensile stress generated at an interface between the conductive structures and the first insulation layer while the first insulation layer is formed. | 02-28-2013 |
20130095637 | METHOD OF FABRICATING A SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device, the method including forming a mask layer on a semiconductor substrate; forming a trench in the semiconductor substrate using the mask layer as an etch mask; forming a first layer in the trench; and performing a first thermal treatment process on the first layer such that the first thermal treatment process is performed under an atmosphere that includes ozone and water vapor and transforms the first layer into a second layer. | 04-18-2013 |
20140367755 | SEMICONDUCTOR MEMORY DEVICES INCLUDING SUPPORT PATTERNS - A capacitor dielectric can be between the storage node and the electrode layer. A supporting pattern can be connected to the storage node, where the supporting pattern can include at least one first pattern and at least one second pattern layered on one another, where the first pattern can include a material having an etch selectivity with respect to the second pattern. | 12-18-2014 |
Patent application number | Description | Published |
20100203700 | METHOD OF FORMING SEMICONDUCTOR DEVICE - A method of forming a semiconductor device includes preparing a substrate having a recessed area. A silicon oxide layer is formed at the recessed area. A catalytic nitridation treatment is performed for an upper portion of the silicon oxide layer to form a nitridation reactant on the upper portion of the silicon oxide layer. A dielectric layer is formed on the silicon oxide layer where the nitridation reactant is formed. The dielectric layer is annealed. According to the foregoing method, recession of the dielectric layer is prevented to fabricate a high-quality semiconductor device. | 08-12-2010 |
20100230741 | SEMICONDUCTOR DEVICES WITH AN AIR GAP IN TRENCH ISOLATION DIELECTRIC - A tunnel insulating layer and a charge storage layer are sequentially stacked on a substrate. A recess region penetrates the charge storage layer, the tunnel insulating layer and a portion of the substrate. The recess region is defined by a bottom surface and a side surface extending from the bottom surface. A first dielectric pattern includes a bottom portion covering the bottom surface and inner walls extending from the bottom portion and covering a portion of the side surface of the recess region. A second dielectric pattern is in the recess region between the inner walls of the first dielectric pattern, and the second dielectric pattern enclosing an air gap. The air gap that is enclosed by the second dielectric pattern may extend through a major portion of the second dielectric pattern in a direction away from the bottom surface of the recess region. | 09-16-2010 |
20110127600 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device and a method of fabricating thereof, including preparing a substrate including a first and second region; forming first and second conductive lines on the first and second region, respectively, the first conductive lines being spaced apart at a first interval and the second conductive lines being spaced apart at a second interval wider than the first interval; forming a dielectric layer in spaces between the first and second conductive lines; etching the dielectric layer until a top surface thereof is lower than top surfaces of the first conductive lines and the second conductive lines; forming a spacer on the etched dielectric layer such that the spacer covers an entire top surface of the etched dielectric layer between the first conductive lines and exposes portions of the etched dielectric layer between the second conductive lines; and removing portions of the etched dielectric layer between the second conductive lines. | 06-02-2011 |
20120217560 | Semiconductor Memory Devices Including Support Patterns - A capacitor dielectric can be between the storage node and the electrode layer. A supporting pattern can be connected to the storage node, where the supporting pattern can include at least one first pattern and at least one second pattern layered on one another, where the first pattern can include a material having an etch selectivity with respect to the second pattern. | 08-30-2012 |