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 |
20080200009 | Methods of Forming Stacked Semiconductor Devices with Single-Crystal Semiconductor Regions - Spaced apart bonding surfaces are formed on a first substrate. A second substrate is bonded to the bonding surfaces of the first substrate and cleaved to leave respective semiconductor regions from the second substrate on respective ones of the spaced apart bonding surfaces of the first substrate. The bonding surfaces may include surfaces of at least one insulating region on the first substrate, and at least one active device may be formed in and/or on at least one of the semiconductor regions. A device isolation region may be formed adjacent the at least one of the semiconductor regions. | 08-21-2008 |
20080247219 | Resistive Random Access Memory Devices Including Sidewall Resistive Layers and Related Methods - A resistive random access memory (RRAM) device may include a first metal pattern on a substrate, a first insulating layer on the first metal pattern and on the substrate, an electrode, a second insulating layer on the first insulating layer, a resistive memory layer, and a second metal pattern. Portions of the first metal pattern may be between the substrate and the first insulating layer, and the first insulating layer may have a first opening therein exposing a portion of the first metal pattern. The electrode may be in the opening with the electrode being electrically coupled with the exposed portion of the first metal pattern. The first insulating layer may be between the second insulating layer and the substrate, and the second insulating layer may have a second opening therein exposing a portion of the electrode. The resistive memory layer may be on side faces of the second opening and on portions of the electrode, and the second metal pattern may be in the second opening with the resistive memory layer between the second metal pattern and the side faces of the second opening and between the second metal pattern and the electrode. Related methods are also discussed. | 10-09-2008 |
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 |
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 |
20120108048 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING THE SAME - A method of fabricating a three-dimensional semiconductor memory device includes providing a substrate which includes a cell array region and a peripheral region. The method further includes a peripheral structure on the peripheral region of the substrate, where the peripheral structure includes peripheral circuits and is configured to expose the cell array region of the substrate. The method further includes forming a lower cell structure on the cell array region of the substrate, forming an insulating layer to cover the peripheral structure and the lower cell structure on the substrate, planarizing the insulating layer using top surfaces of the peripheral structure and the lower cell structure as a planarization stop layer, and forming an upper cell structure on the lower cell structure. | 05-03-2012 |
20120149185 | Methods Of Manufacturing Semiconductor Devices - Methods of manufacturing semiconductor devices include forming an integrated structure and a first stopping layer pattern in a first region. A first insulating interlayer and a second stopping layer are formed. A second preliminary insulating interlayer is formed by partially etching the second stopping layer and the first insulating interlayer in the first region. A first polishing is performed to remove a protruding portion. A second polishing is performed to expose the first and second stopping layer patterns. | 06-14-2012 |
20130065386 | MULTIPLE MOLD STRUCTURE METHODS OF MANUFACTURING VERTICAL MEMORY DEVICES - A first insulating interlayer is formed on a substrate including first and second regions. The first insulating interlayer has top surface, a height of which is greater in the first region than in the second region. A first planarization stop layer and a second insulating interlayer are formed. The second insulating interlayer is planarized until the first planarization stop layer is exposed. The first planarization stop layer and the first and second insulating interlayers in the second region are removed to expose the substrate. A lower mold structure including first insulation layer patterns, first sacrificial layer patterns and a second planarization stop layer pattern is formed. The first insulation layer patterns and the first sacrificial layer patterns are alternately and repeatedly formed on the substrate, and a second planarization stop layer pattern is formed on the first insulation layer pattern. | 03-14-2013 |