Patent application number | Description | Published |
20080254593 | Method for Fabricating Isolation Layer in Semiconductor Device - A method of fabricating an isolation layer in a semiconductor device includes forming a trench in a semiconductor substrate, depositing a high-density plasma (HDP) oxide layer partially filling the trench by supplying an HDP deposition source, etching an overhang generated while the HDP oxide layer is deposited using a fluorine-containing etching gas, depositing a liner HDP oxide layer on the HDP oxide layer by supplying an inert gas and an HDP deposition source such that fluorine (F) is trapped in the liner HDP oxide layer, performing an isotropic etching on an overhang portion of a side surface of the HDP oxide layer using the fluorine (F) trapped in the liner HDP oxide layer, and forming an HDP capping layer on the liner HDP oxide layer to fill a remaining portion of the trench. | 10-16-2008 |
20080318402 | SEMICONDUCTOR DEVICE HAVING A RECESS CHANNEL AND METHOD FOR FABRICATING THE SAME - Provided is a semiconductor device having recess channel, comprising a semiconductor substrate having first and second trenches disposed to cross each other on both sides of an active region among adjoining regions between an active region and element-isolation films; a gate insulation film disposed on the semiconductor substrate of the active region; a first gate line disposed on the gate insulation film, and crossing the active region and overlapping with the first trench; and a second gate line disposed on the gate insulation film, and crossing the active region while overlapping with the second trench. | 12-25-2008 |
20080318407 | Method for Forming Storage Electrode of Semiconductor Memory Device - In order to form a storage electrode of a semiconductor memory device, an interlayer dielectric layer is formed on a semiconductor substrate having a bit line thereon. A contact hole exposing the semiconductor substrate is formed by patterning the interlayer dielectric layer. A polysilicon layer is etched to a predetermined thickness using polysilicon etching gas after the polysilicon layer is deposited. An over-etch process is performed relative to the polysilicon layer, and then a storage node contact having a planarized surface is formed in the contact hole by performing an etching process for planarizing the surface of the polysilicon layer. A mold insulating layer is formed on the resultant structure, in which the mold insulating layer exposes an area where the storage node contact is formed. A storage electrode coupled to the storage node contact is formed. | 12-25-2008 |
20090004839 | METHOD FOR FABRICATING AN INTERLAYER DIELECTRIC IN A SEMICONDUCTOR DEVICE - In a method for fabricating an interlayer dielectric in a semiconductor device, conductive patterns are formed on a semiconductor substrate. A fluid dielectric is formed to cover the conductive patterns. The fluid dielectric is recessed. A buried dielectric is deposited on the conductive patterns exposed by the recessing process. The buried dielectric is denser than the fluid dielectric, thereby forming an interlayer dielectric including the fluid dielectric and the buried dielectric. | 01-01-2009 |
20090004849 | METHOD FOR FABRICATING AN INTER DIELECTRIC LAYER IN SEMICONDUCTOR DEVICE - In a method for fabricating an inter dielectric layer in semiconductor device, a primary liner HDP oxide layer is formed by supplying a high density plasma (HDP) deposition source to a bit line stack formed on a semiconductor substrate. A high density plasma (HDP) deposition source is supplied to the bit line stack to form a primary liner HDP oxide layer. The primary liner HDP oxide layer is etched to a predetermined depth to form a secondary liner HDP oxide layer. An interlayer dielectric layer is formed to fill the areas defined by the bit line stack where the secondary liner HDP oxide layer is located. | 01-01-2009 |
20090068816 | METHOD FOR FORMING ISOLATION LAYER IN SEMICONDUCTOR DEVICE - Provided is a method for forming an isolation layer in a semiconductor device. In the method, a trench is formed in a semiconductor substrate, and a liner layer is formed on an exposed surface of the trench. A flowable insulation layer is formed to fill the trench. The flowable insulation layer is recessed. A buffer layer is formed on a portion of the liner layer that is formed on a sidewall of the trench and exposed after the flowable insulation layer is recessed. The buffer layer is etched to smoothen a rough portion of the liner layer that is formed when the flowable insulation layer is recessed. A buried insulation layer is deposited in the trench. | 03-12-2009 |
20090068817 | METHOD FOR FORMING ISOLATION LAYER IN SEMICONDUCTOR DEVICE - A method for forming an isolation layer in a semiconductor device includes forming a trench in a semiconductor substrate. A flowable insulation layer is formed to fill the trench. The flowable insulation layer is recessed. A buried insulation layer is deposited on the flowable insulation layer while keeping a deposition sputtering rate (DSR) below about 22 so as to fill the trench with the buried insulation layer while restraining the buried insulation layer from growing on a lateral portion of the trench. | 03-12-2009 |
20090127650 | TRENCH ISOLATION STRUCTURE IN A SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A trench isolation structure in a semiconductor device is provided. A semiconductor substrate has cell regions and peripheral circuit regions. First trenches have a predetermined depth and are formed in the semiconductor substrate at the cell regions. A first sidewall oxide film is formed overlying the first trenches. A first liner nitride film is formed overlying the first sidewall oxide film. Second trenches have a predetermined depth and are formed in the semiconductor substrate at the peripheral circuit regions. A second sidewall oxide film is formed overlying the second trenches. An oxide film fills the first overlying second trenches. A second liner nitride film formed on the filling oxide film. The second liner nitride film is separated from the sidewalls of the first and second trenches. | 05-21-2009 |
20090243050 | Isolation Structure in Memory Device and Method for Fabricating the Same - A method for fabricating an isolation structure in a memory device includes forming a first trench in a cell region of a semiconductor substrate and a second trench in a peripheral region of the semiconductor substrate. The method also includes oxidating the surface of the first and second trenches to form a sidewall oxide layer; depositing a tetraethylorthosilicate(TEOS) layer on the sidewall oxide layer; forming a silicon nitride layer and a silicon oxide layer on the TEOS layer; selectively removing portions of the silicon nitride and silicon oxide layers on the second trench to expose a portion of the underlying TEOS layer; coating a flowable insulation layer that fills the first and second trenches; and curing the flowable insulation layer. | 10-01-2009 |
20090256233 | Isolation Structure in Memory Device and Method for Fabricating the Isolation Structure - An isolation structure in a memory device and a method for fabricating the isolation structure. In the method, a first trench is formed in a cell region of a semiconductor substrate and a second trench in a peripheral region of the semiconductor substrate. A liner layer comprising a silicon nitride layer is formed on the first and second trenches. A spin on dielectric (SOD) layer comprising polysilazane is formed on the liner layer so as to fill the first and second trenches. A portion of the SOD layer filling the second trench is removed. A portion of the silicon nitride layer, which is disposed on the second trench and is exposed after the removing of the portion of the SOD layer, is oxidized using oxygen plasma and heat generated from the plasma. A high density plasma (HDP) oxide layer is formed to fill the second trench. | 10-15-2009 |
20090267197 | SEMICONDUCTOR DEVICE FOR PREVENTING THE LEANING OF STORAGE NODES AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device for preventing the leaning of storage nodes and a method of manufacturing the same is described. The semiconductor device includes support patterns that are formed to support a plurality of cylinder type storage nodes. The support patterns are formed of a BN layer and have a hexagonal structure. The BN layer forming the support patterns has compressive stress as opposed to tensile stress and can therefore withstand cracking in the support patterns. | 10-29-2009 |
20100052097 | CAPACITOR OF SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME - A method for forming a capacitor of a semiconductor device includes f forming a cylindrical storage node over a semiconductor substrate; depositing a first dielectric layer over the cylindrical storage node; and etching the first dielectric layer to reduce a thickness of a portion of the first dielectric layer on a protruded end of the cylindrical storage node. The method further includes depositing a second dielectric layer over the etched first dielectric layer, wherein the second dielectric layer supplements a thickness of a portion of the first dielectric layer on a bottom corner of the cylindrical storage node. Finally, a cell plate is formed over the second dielectric layer. | 03-04-2010 |
20100078757 | SEMICONDUCTOR DEVICE HAVING RECESS GATE AND ISOLATION STRUCTURE AND METHOD FOR FABRICATING THE SAME - Disclosed herein is a semiconductor device including an isolation structure and a recess gate and a method for fabricating the same. The method for fabricating a semiconductor device includes: forming a trench by selectively etching an isolation region of a semiconductor substrate to define an active region; forming a first SOD partially filling the trench; forming a stress shielding layer, which is denser than the first SOD, over the first SOD; forming a second SOD that fills the trench over the first SOD including the stress shielding layer; forming a recess groove by selectively etching a portion of the active region, wherein an upper surface of the first SOD is spaced downwardly from a bottom of the recess groove, and an upper surface of the stress shielding layer is spaced upwardly from the bottom of the recessed groove; and forming a gate of a transistor that fills the recess groove. | 04-01-2010 |
20100124807 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE HAVING STEP GATES - A semiconductor device having step gates includes a semiconductor substrate including first regions having relatively low steps at both ends of an active region defined by trench isolation films and a second region having a relatively high step at a central part of the active region, a groove having a predetermined depth being formed at the central part of the second region, step gate stacks formed on the boundary between the first region and second region while exposing the groove of the second region, first impurity regions formed in the first regions exposed by the step gate stacks, and a second impurity region formed in the second region exposed by the step gate stacks while enclosing the groove of the second region. | 05-20-2010 |
20100159700 | Method for Fabricating Cylinder Type Capacitor - A method for fabricating a cylinder type capacitor includes forming connection contacts passing through a lower layer over a semiconductor substrate; forming a mold layer covering the connection contacts; forming a first floated pinning layer with a stress in a first direction over the mold layer; forming a second floated pinning layer for stress relief with a stress in a second direction over the first floated pinning layer, said second direction being opposite to the first direction; forming opening holes passing through the first and second floated pinning layers and the mold layer and exposing the connection contacts; forming storage nodes following a profile of the opening holes; removing portions of the first and second floated pinning layers to form a floated pinning layer pattern, the floated pinning layer pattern exposing a portion of the mold layer and contacting upper tips of the storage nodes; exposing outer walls of the storage nodes by selectively removing the exposed mold layer; and forming a dielectric layer and an upper electrode over the storage node. | 06-24-2010 |
20100167539 | METHOD FOR INSULATING WIRES OF SEMICONDUCTOR DEVICE - Disclosed herein is a method for insulating wires of a semiconductor device. One embodiment of the method includes forming first bit line stacks over a cell region of a semiconductor substrate and second bit line stacks over a peripheral region of the semiconductor substrate, and forming a Spin On Dielectric (SOD) layer to fill between the first and second bit line stacks. The method also includes etching back the SOD layer to expose upper side portions of the first and second bit line stacks, selectively removing a portion of the SOD layer present on the peripheral region, and depositing a High Density Plasma (HDP) insulation layer to cover a portion of the SOD layer present on the cell region, and to fill between the second bit line stacks present on the peripheral region. | 07-01-2010 |
20100330804 | Method for Fabricating Bitline in Semiconductor Device - A method of a fabricating a bitline in a semiconductor device, comprising: forming an interlayer insulation layer that defines a bitline contact hole on a semiconductor substrate; forming a contact layer to fill the bitline contact hole; forming a bitline contact by planarizing the contact layer; forming a bitline stack aligned with the bitline contact; forming a high aspect ratio process (HARP) layer that extends along the bitline stack and the interlayer insulation layer while covering a seam exposed in a side portion of the bitline stack by excessive planarization during formation of the bitline contact; and forming an interlayer gap-filling insulation layer on the HARP layer that gap-fills the entire bitline stack. | 12-30-2010 |
20110065251 | METHOD FOR FABRICATING STORAGE NODE ELECTRODE IN SEMICONDUCTOR DEVICE - A method for fabricating a storage node electrode in a semiconductor device includes: performing a primary high density plasma (HDP) process to form a first HDP oxide film over an etch stop film; performing a secondary HDP process to form a second HDP oxide film on the first HDP oxide film; forming a support film over the second HDP oxide film; performing a tertiary HDP process to form a third HDP oxide film over the support film; forming a storage node electrode on an exposed surface of the storage node contact hole; partially removing the third HDP oxide film and the support film so that a support pattern supporting the storage node electrode is formed; and exposing an outer surface of the storage node electrode by removing the second HDP oxide film and the first HDP oxide film. | 03-17-2011 |
20110127634 | Isolation Structure in a Memory Device - An isolation structure in a memory device and a method for fabricating the isolation structure. In the method, a first trench is formed in a cell region of a semiconductor substrate and a second trench in a peripheral region of the semiconductor substrate. A liner layer comprising a silicon nitride layer is formed on the first and second trenches. A spin on dielectric (SOD) layer comprising polysilazane is formed on the liner layer so as to fill the first and second trenches. A portion of the SOD layer filling the second trench is removed. A portion of the silicon nitride layer, which is disposed on the second trench and is exposed after the removing of the portion of the SOD layer, is oxidized using oxygen plasma and heat generated from the plasma. A high density plasma (HDP) oxide layer is formed to fill the second trench. | 06-02-2011 |
20110256696 | SEMICONDUCTOR DEVICE FOR PREVENTING THE LEANING OF STORAGE NODES AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device for preventing the leaning of storage nodes and a method of manufacturing the same is described. The semiconductor device includes support patterns that are formed to support a plurality of cylinder type storage nodes. The support patterns are formed of a BN layer and have a hexagonal structure. The BN layer forming the support patterns has compressive stress as opposed to tensile stress and can therefore withstand cracking in the support patterns. | 10-20-2011 |
20120270380 | METHOD FOR FORMING ISOLATION LAYER IN SEMICONDUCTOR DEVICE - A method for forming an isolation layer in a semiconductor device includes forming a trench in a semiconductor substrate. A liner layer that includes a liner nitride layer and a liner oxide layer is formed on an exposed surface of the trench. A flowable insulation layer is formed to fill the trench. The flowable insulation layer is recessed to expose a portion of the liner nitride layer on an upper portion of the trench. A first preheating process is performed to release stress of the liner layer. A second preheating process is performed to oxidize the exposed liner nitride layer. A buffer layer is formed on a portion of the liner layer that is formed on a sidewall of the trench and exposed after the flowable insulation layer is recessed. The buffer layer is etched to smoothen a rough portion of the liner layer that is formed when the flowable insulation layer is recessed. A buried insulation layer is deposited in the trench. | 10-25-2012 |
20140045325 | METHOD FOR FABRICATING AN INTER DIELECTRIC LAYER IN SEMICONDUCTOR DEVICE - In a method for fabricating an inter dielectric layer in semiconductor device, a primary liner HDP oxide layer is formed by supplying a high density plasma (HDP) deposition source to a bit line stack formed on a semiconductor substrate. A high density plasma (HDP) deposition source is supplied to the bit line stack to form a primary liner HDP oxide layer. The primary liner HDP oxide layer is etched to a predetermined depth to form a secondary liner HDP oxide layer. An interlayer dielectric layer is formed to fill the areas defined by the bit line stack where the secondary liner HDP oxide layer is located. | 02-13-2014 |