Patent application number | Description | Published |
20110306192 | METHOD FOR FORMING IMPURITY REGION OF VERTICAL TRANSISTOR AND METHOD FOR FABRICATING VERTICAL TRANSISTOR USING THE SAME - A method for forming an impurity region of a vertical transistor includes forming an impurity ion junction region within a semiconductor substrate, and forming a trench by etching the semiconductor substrate in which the impurity ion junction region is formed. The etching process is performed to remove a portion of the impurity ion junction region, so that a remaining portion of the impurity ion junction region is exposed to a lower side wall of the trench to serve as a buried bit line junction region. | 12-15-2011 |
20120007171 | SEMICONDUCTOR MEMORY DEVICE HAVING VERTICAL TRANSISTOR AND BURIED BIT LINE AND METHOD FOR FABRICATING THE SAME - A semiconductor memory device includes an active region protruding upward from a substrate, wherein the active region is arranged next to a trench on the substrate, a first impurity region formed at an upper portion of the active region, a second impurity region formed at a lower portion of the active region, a gate dielectric layer formed along a side of the active region between the first impurity region and the second impurity region, a gate electrode layer formed on the gate dielectric layer, a buried bit line formed at a lower portion of the trench, and a polysilicon layer formed over the buried bit line, wherein the polysilicon layer electrically connects the buried bit line with the second impurity region. | 01-12-2012 |
20120112270 | VERTICAL TRANSISTOR HAVING BURIED JUNCTION AND METHOD FOR MANUFACTURING THE SAME - A buried junction is formed in a vertical transistor of a semiconductor device. Wall bodies are formed from a semiconductor substrate, the wall bodies protruding while having a first side surface and a second side surface in the opposite side of the first side surface; forming a one side contact mask having an opening which selectively opens a portion of the first side surface of the wall body; and forming a first impurity layer and a second impurity layer surrounding the first impurity layer by diffusing impurities having different diffusivities into the portion of the first side surface exposed to the opening. | 05-10-2012 |
20120208335 | METHODS OF FABRICATING A SEMICONDUCTOR DEVICE HAVING LOW CONTACT RESISTANCE - Methods of fabricating a semiconductor device are provided. The method includes forming a first gate stack and a second gate stack on a first region and a second region of a substrate, respectively. The method may further comprise forming first impurity regions self-aligned with the first gate stack and second impurity regions self-aligned with the second gate stack in the substrate of the first region and in the substrate of the second region, respectively. First impurity ions may be injected into the first and second impurity regions, forming a mask pattern covering the first region and exposing the second region on the substrate where the first impurity ions are injected and second impurity ions having an opposite conductivity type to the first impurity ions may be injected into the second impurity regions exposed by the mask pattern using a plasma doping process. The mask pattern may then be removed. | 08-16-2012 |
20120208364 | METHOD FOR OPENING ONE-SIDE CONTACT REGION OF VERTICAL TRANSISTOR AND METHOD FOR FABRICATING ONE-SIDE JUNCTION REGION USING THE SAME - A method for opening a one-side contact region of a vertical transistor is provided. The one-side contact region of the vertical transistor is opened using a polysilicon layer, a certain portion of which can be selectively removed by a selective ion implantation process. In order to selectively remove the polysilicon layer formed on one of both sides of an active region, at which the one-side contact is to be formed, impurity ion implantation is performed in a direction vertical to the polysilicon layer by a plasma doping process, and a tilt ion implantation using an existing ion implantation process is performed. In this manner, the polysilicon layer is selectively doped, and the undoped portion of the polysilicon layer is selectively removed. | 08-16-2012 |
20130161767 | SEMICONDUCTOR DEVICES HAVING POLYSILICON GATE PATTERNS AND METHODS OF FABRICATING THE SAME - A semiconductor device including a gate insulation pattern on a substrate, and a semiconductor gate pattern including an amorphous silicon pattern and a polycrystalline silicon pattern stacked on a side of the gate insulation pattern opposite to the substrate. The amorphous silicon pattern includes anti-diffusion impurities that suppress diffusion of impurity ions in the semiconductor gate pattern. | 06-27-2013 |
20130288442 | METHOD FOR FORMING IMPURITY REGION OF VERTICAL TRANSISTOR AND METHOD FOR FABRICATING VERTICAL TRANSISTOR USING THE SAME - A method for forming an impurity region of a vertical transistor includes forming an impurity ion junction region within a semiconductor substrate, and forming a trench by etching the semiconductor substrate in which the impurity ion junction region is formed. The etching process is performed to remove a portion of the impurity ion junction region, so that a remaining portion of the impurity ion junction region is exposed to a lower side wall of the trench to serve as a buried bit line junction region. | 10-31-2013 |
Patent application number | Description | Published |
20090267002 | Apparatus and Method for Partial Ion Implantation Using Atom Vibration - A partial ion implantation apparatus and method are provided. The partial ion implantation apparatus includes an ion beam generator, a wafer chuck, and a plurality of atom-vibrating devices. The ion beam generator is configured to generate an ion beam. The wafer chuck is disposed to support a wafer into which the ion beam is implanted. The atom-vibrating devices are configured to vibrate silicon atoms in the wafer. | 10-29-2009 |
20100117131 | Transistor for Preventing or Reducing Short Channel Effect and Method for Manufacturing the Same - A transistor for preventing or reducing short channel effect includes a substrate; a gate stack disposed over the substrate; a first junction region disposed on the substrate at a first side surface of the gate stack, said first junction layer being formed of an epitaxial layer; a trench formed within the substrate at a second side surface of the gate stack; and a second junction region disposed below the trench, said second junction layer being lower than the first junction region. | 05-13-2010 |
20100167483 | METHOD FOR FABRICATING PMOS TRANSISTOR - A method for fabricating a PMOS transistor is disclosed herein. In one embodiment, the method can include forming a gate insulation layer and a polysilicon layer over a semiconductor substrate; asymmetrically etching the polysilicon layer; doping the asymmetrically etched polysilicon layer with a P-type dopant; diffusing the dopant in the asymmetrically etched polysilicon layer towards the semiconductor substrate; planarizing the asymmetrically etched polysilicon layer; forming a gate metal layer over the planarized polysilicon layer; forming a hard mask, which delimits a region to be formed with a gate of the PMOS transistor, over the gate metal layer; forming a gate stack by patterning the gate metal layer, the planarized polysilicon layer, and the gate insulation layer; and forming a source/drain in the semiconductor substrate at both sides of the gate stack. | 07-01-2010 |
20100285642 | Method of Doping Impurity Ions in Dual Gate and Method of Fabricating the Dual Gate using the same - A method of doping impurity ions in a dual gate includes doping first conductivity type impurity ions in a gate conductive layer over a semiconductor substrate having a first region and a second region, wherein the doping is performed with a concentration gradient so that a doping concentration in an upper portion of the gate conductive layer is higher than that in a lower portion; doping second conductivity type impurity ions in a portion of the gate conductive layer in the second region using a mask for opening the portion of the gate conductive layer in the second region; and diffusing the first conductivity type impurity ions and the second conductivity type impurity ions by performing heat treatment. | 11-11-2010 |
20100317180 | Method of Doping P-type Impurity Ions in Dual Poly Gate and Method of Forming Dual Poly Gate Using the Same - A method of doping p-type impurity ions in a dual poly gate, comprising: forming a polysilicon layer doped with n-type impurity ions on a substrate with a gate insulation layer being interposed between the polysilicon layer and the substrate; exposing a region of the polysilicon layer; implementing a first doping of p-type impurity ions into the exposed region of the polysilicon layer by ion implantation so with a projection range Rp to a predetermined depth of the polysilicon layer; and implementing a second doping of p-type impurity ions into the exposed region of the polysilicon layer doped with the p-type impurity ions by plasma doping with a sloped doping profile. | 12-16-2010 |
20100330801 | Method of Fabricating Landing Plug in Semiconductor Device - A method of fabricating a landing plug in a semiconductor memory device, which in one embodiment includes forming a landing plug contact hole on a semiconductor substrate having an impurity region to expose the impurity region; forming a landing plug by filling the landing plug contact hole with a polysilicon layer, wherein the landing plug is divided into a first region, a second region, a third region, and a fourth region from a lower portion of the landing plug, and the first region is doped with a first doping concentration that is relatively lowest, the second region is doped with a second doping concentration that is higher than the first doping concentration, the third region is doped with a third doping concentration that is higher than the second doping concentration and the fourth region is not doped; and annealing the resulting product formed with the landing plug. | 12-30-2010 |
20120100714 | Method of Fabricating a Landing Plug in a Semiconductor Device - A method of fabricating a landing plug in a semiconductor memory device, which in one embodiment includes forming a landing plug contact hole on a semiconductor substrate having an impurity region to expose the impurity region; forming a landing plug by filling the landing plug contact hole with a polysilicon layer, wherein the landing plug is divided into a first region, a second region, a third region, and a fourth region from a lower portion of the landing plug, and the first region is doped with a first doping concentration that is relatively lowest, the second region is doped with a second doping concentration that is higher than the first doping concentration, the third region is doped with a third doping concentration that is higher than the second doping concentration and the fourth region is not doped; and annealing the resulting product formed with the landing plug. | 04-26-2012 |
20130309827 | Method for Manufacturing a Transistor for Preventing or Reducing Short Channel Effect - A transistor for preventing or reducing short channel effect includes a substrate; a gate stack disposed over the substrate; a first junction region disposed on the substrate at a first side surface of the gate stack, said first junction layer being formed of an epitaxial layer; a trench formed within the substrate at a second side surface of the gate stack; and a second junction region disposed below the trench, said second junction layer being lower than the first junction region. | 11-21-2013 |