Patent application number | Description | Published |
20090130826 | Method of Forming a Semiconductor Device Having a Strained Silicon Layer on a Silicon-Germanium Layer - A method of forming a semiconductor device having a strained silicon (Si) layer on a silicon germanium (SiGe) layer is provided. The method includes preparing a silicon substrate. A SiGe layer is formed on the silicon substrate. At least a part of the SiGe layer has a first dislocation density. A strained Si layer having a second dislocation density lower than the first dislocation density is formed on the SiGe layer. | 05-21-2009 |
20090253256 | METHODS OF FABRICATING SEMICONDUCTOR DEVICES HAVING TRANSISTORS WITH DIFFERENT GATE STRUCTURES - A semiconductor device has two transistors of different structure from each other. One of transistors is P-type and the other is N-type. One of the transistors includes a gate structure in which a polysilicon layer contacts a gate insulation film while the other transistor includes a gate structure in which a metal layer contacts a gate insulation film. | 10-08-2009 |
20100025749 | SEMICONDUCTOR DEVICE - A semiconductor device may include an isolation layer, gate electrodes, an insulating interlayer, an impurity region, a capping layer and a plug. The isolation layer may be formed in the substrate. The gate electrodes may be formed on the substrate. The insulating interlayer may be formed on the gate electrodes. The insulating interlayer may have a contact hole between the gate electrodes. The impurity region may be in the substrate exposed through the contact hole. The capping layer may be on the impurity region. The plug may be on the capping layer. Thus, the impurities may not be lost from the impurity region. As a result, the device may have improved electrical characteristics and reliability because depletion may not be generated in the electrode layer | 02-04-2010 |
20100035425 | Integrated Circuit Devices Having Partially Nitridated Sidewalls and Devices Formed Thereby - Methods of forming integrated circuit devices include forming an electrically conductive layer containing silicon on a substrate and forming a mask pattern on the electrically conductive layer. The electrically conductive layer is selectively etched to define a first sidewall thereon, using the mask pattern as an etching mask. The first sidewall of the electrically conductive layer may be exposed to a nitrogen plasma to thereby form a first silicon nitride layer on the first sidewall. The electrically conductive layer is then selectively etched again to expose a second sidewall thereon that is free of the first silicon nitride layer. The mask pattern may be used again as an etching mask during this second step of selectively etching the electrically conductive layer. | 02-11-2010 |
20100072545 | Recessed Channel Array Transistors, and Semiconductor Devices Including a Recessed Channel Array Transistor - A recessed channel array transistor may include a substrate, a gate oxide layer, a gate electrode and source/drain regions. The substrate may have an active region and an isolation region. A recess may be formed in the active region. The gate oxide layer may be formed on the recess and the substrate. The gate oxide layer may include a first portion on an intersection between a side end of the recess and a sidewall of the active region and a second portion on a side surface of the recess. The first portion may include a thickness greater than about 70% of a thickness of the second portion. The gate electrode may be formed on the gate oxide layer. The source/drain regions may be formed in the substrate. Thus, the recessed channel array transistor may have a decreased leakage current and an increased on-current. | 03-25-2010 |
20100124805 | METHODS OF FORMING SEMICONDUCTOR DEVICES HAVING GATES WITH DIFFERENT WORK FUNCTIONS USING NITRIDATION - A semiconductor device that has a dual gate having different work functions is simply formed by using a selective nitridation. A gate insulating layer is formed on a semiconductor substrate including a first region and a second region, on which devices having different threshold voltages are to be formed. A diffusion inhibiting material is selectively injected into the gate insulating layer in one of the first region and the second region. A diffusion layer is formed on the gate insulating layer. A work function controlling material is directly diffused from the diffusion layer to the gate insulating layer using a heat treatment, wherein the gate insulting layer is self-aligned capped with the selectively injected diffusion inhibiting material so that the work function controlling material is diffused into the other of the first region and the second region. The gate insulating layer is entirely exposed by removing the diffusion layer. A gate electrode layer is formed on the exposed gate insulating layer. A first gate and a second gate having different work functions are respectively formed in the first region and the second region by etching the gate electrode layer and the gate insulating layer | 05-20-2010 |
20100159689 | SEMICONDUCTOR DEVICES HAVING CONTACT PLUGS WITH STRESS BUFFER SPACERS AND METHODS OF FABRICATING THE SAME - A semiconductor device includes an inorganic insulating layer on a semiconductor substrate, a contact plug that extends through the inorganic insulating layer to contact the semiconductor substrate and a stress buffer spacer disposed between the node contact plug and the inorganic insulating layer. The device further includes a thin-film transistor (TFT) disposed on the inorganic insulating layer and having a source/drain region extending along the inorganic insulating layer to contact the contact plug. The device may further include an etch stop layer interposed between the inorganic insulating layer and the semiconductor substrate. | 06-24-2010 |
20100213541 | SEMICONDUCTOR DEVICE HAVING RECESS CHANNEL STRUCTURE - An integrated circuit device includes a semiconductor substrate including an active region defined by an isolation region and having at least one trench therein, a gate insulating layer formed in the at least one trench, a gate electrode layer having a nano-crystalline structure disposed on the gate insulating layer and a word line on the gate electrode layer in the at least one trench. The device may further include a capping layer on the word line. | 08-26-2010 |
20110300704 | SEMICONDUCTOR DEVICES HAVING CONTACT PLUGS WITH STRESS BUFFER SPACERS AND METHODS OF FABRICATING THE SAME - A semiconductor device includes an inorganic insulating layer on a semiconductor substrate, a contact plug that extends through the inorganic insulating layer to contact the semiconductor substrate and a stress buffer spacer disposed between the node contact plug and the inorganic insulating layer. The device further includes a thin-film transistor (TFT) disposed on the inorganic insulating layer and having a source/drain region extending along the inorganic insulating layer to contact the contact plug. The device may further include an etch stop layer interposed between the inorganic insulating layer and the semiconductor substrate. | 12-08-2011 |
20120282769 | METHODS OF FORMING INTEGRATED CIRCUIT DEVICES HAVING ELECTRICALLY CONDUCTIVE LAYERS THEREIN WITH PARTIALLY NITRIDATED SIDEWALLS - Methods of forming integrated circuit devices include forming an electrically conductive layer containing silicon on a substrate and forming a mask pattern on the electrically conductive layer. The electrically conductive layer is selectively etched to define a first sidewall thereon, using the mask pattern as an etching mask. The first sidewall of the electrically conductive layer may be exposed to a nitrogen plasma to thereby form a first silicon nitride layer on the first sidewall. The electrically conductive layer is then selectively etched again to expose a second sidewall thereon that is free of the first silicon nitride layer. The mask pattern may be used again as an etching mask during this second step of selectively etching the electrically conductive layer. | 11-08-2012 |