Byung-Hak Lee
Byung-Hak Lee, Suwon-Si KR
Patent application number | Description | Published |
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20090101984 | Semiconductor device having gate electrode including metal layer and method of manufacturing the same - A semiconductor device may include a gate dielectric film on a semiconductor substrate and/or a gate electrode. The gate electrode may include a first metal film, a first metal silicide film, and/or a conductive polysilicon film sequentially stacked on the gate dielectric film. | 04-23-2009 |
20090189229 | Semiconductor devices and methods of fabricating the same - Provided are semiconductor devices and methods of fabricating the same, and more specifically, semiconductor devices having a W—Ni alloy thin layer that has a low resistance, and methods of fabricating the same. The semiconductor devices include the W—Ni alloy thin layer. The weight of Ni in the W—Ni alloy thin layer may be in a range from approximately 0.01 to approximately 5.0 wt % of the total weight of the W—Ni alloy thin layer. | 07-30-2009 |
20110003455 | METHODS FOR FABRICATING IMPROVED GATE DIELECTRICS - Disclosed are a variety of methods for increasing the relative thickness in the peripheral or edge regions of gate dielectric patterns to suppress leakage through these regions. The methods provide alternatives to conventional GPDX processes and provide the improved leakage resistance without incurring the degree of increased gate electrode resistance associated with GPDX processes. Each of the methods includes forming a first opening to expose an active area region, forming an oxidation control region on the exposed portion and then forming a second opening whereby a peripheral region free of the oxidation control region is exposed for formation of a gate dielectric layer. The resulting gate dielectric layers are characterized by a thinner central region surrounded or bounded by a thicker peripheral region. | 01-06-2011 |
Byung-Hak Lee, Hwaseong-Si KR
Patent application number | Description | Published |
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20100210105 | METHOD OF FABRICATING SEMICONDUCTOR DEVICE HAVING BURIED WIRING - A method of fabricating a semiconductor device can include forming a trench in a semiconductor substrate, forming a first conductive layer on a bottom surface and side surfaces of the trench, and selectively forming a second conductive layer on the first conductive layer to be buried in the trench. The second conductive layer may be formed selectively on the first conductive layer by using an electroless plating method or using a metal organic chemical vapor deposition (MOCVD) or an atomic layer deposition (ALD) method. | 08-19-2010 |
20110306205 | Semiconductor Device and Method of Fabricating the Same - Methods of forming a semiconductor device include providing a substrate having an area including a source and a drain region of a transistor. A nickel (Ni) metal film is formed on the substrate area including the source and the drain region. A first heat-treatment process is performed including heating the substrate including the metal film from a first temperature to a second temperature at a first ramping rate and holding the substrate including the metal film at the second temperature for a first period of time. A second heat-treatment process is then performed including heating the substrate including the metal film from a third temperature to a fourth temperature at a second ramping rate and holding the substrate at the fourth temperature for a second period of time. The fourth temperature is different from the second temperature and the second period of time is different from the first period of time. The sequentially performed first and second heat-treatment processes convert the Ni metal layer on the source and drain regions into a NiSi layer on the source and drain regions and a NiSi | 12-15-2011 |
Byung-Hak Lee, Gyeonggi-Do KR
Patent application number | Description | Published |
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20090173986 | Semiconductor Devices Including Gate Structures and Leakage Barrier Oxides - Methods of forming a semiconductor device may include forming a tunnel oxide layer on a semiconductor substrate, forming a gate structure on the tunnel oxide layer, forming a leakage barrier oxide, and forming an insulating spacer. More particularly, the tunnel oxide layer may be between the gate structure and the substrate, and the gate structure may include a first gate electrode on the tunnel oxide layer, an inter-gate dielectric on the first gate electrode, and a second gate electrode on the inter-gate dielectric with the inter-gate dielectric between the first and second gate electrodes. The leakage barrier oxide may be formed on sidewalls of the second gate electrode. The insulating spacer may be formed on the leakage barrier oxide with the leakage barrier oxide between the insulating spacer and the sidewalls of the second gate electrode. In addition, the insulating spacer and the leakage barrier oxide may include different materials. Related structures are also discussed. | 07-09-2009 |
20090256177 | Semiconductor device including an ohmic layer - In an ohmic layer and methods of forming the ohmic layer, a gate structure including the ohmic layer and a metal wiring having the ohmic layer, the ohmic layer is formed using tungsten silicide that includes tungsten and silicon with an atomic ratio within a range of about 1:5 to about 1:15. The tungsten silicide may be obtained in a chamber using a reaction gas including a tungsten source gas and a silicon source gas by a partial pressure ratio within a range of about 1.0:25.0 to about 1.0:160.0. The reaction gas may have a partial pressure within a range of about 2.05 percent to about 30.0 percent of a total internal pressure of the chamber. When the ohmic layer is employed for a conductive structure, such as a gate structure or a metal wiring, the conductive structure may have a reduced resistance. | 10-15-2009 |
20090298273 | METHODS OF FORMING RECESSED GATE ELECTRODES HAVING COVERED LAYER INTERFACES - Methods of forming a gate electrode can be provided by forming a trench in a substrate, conformally forming a polysilicon layer to provide a polysilicon conformal layer in the trench defining a recess surrounded by the polysilicon conformal layer, wherein the polysilicon conformal layer is formed to extend upwardly from a surface of the substrate to have a protrusion and the protrusion has a vertical outer sidewall adjacent the surface of the substrate, forming a tungsten layer in the recess to form an upper surface that includes an interface between the polysilicon conformal layer and the tungsten layer, and forming a capping layer being in direct contact with top surfaces of the polysilicon conformal layer and the tungsten layer without any intervening layers. | 12-03-2009 |
20090315091 | GATE STRUCTURE, AND SEMICONDUCTOR DEVICE HAVING A GATE STRUCTURE - A gate structure can include a polysilicon layer, a metal layer on the polysilicon layer, a metal silicide nitride layer on the metal layer and a silicon nitride mask on the metal silicide nitride layer | 12-24-2009 |