Patent application number | Description | Published |
20080211038 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A method of fabricating a semiconductor device includes forming a preliminary gate pattern on a semiconductor substrate. The preliminary gate pattern includes a gate oxide pattern, a conductive pattern, and a sacrificial insulating pattern. The method further includes forming spacers on opposite sidewalls of the preliminary gate pattern, forming an interlayer dielectric pattern to expose the sacrificial insulating pattern, removing the sacrificial insulating pattern to form an opening to expose the conductive pattern, transforming the conductive pattern into a metal silicide layer and forming a metal barrier pattern along an inner profile of the opening and a metal conductive pattern to fill the opening including the metal barrier pattern. The metal silicide layer and the metal conductive pattern constitute a gate electrode. | 09-04-2008 |
20090233439 | Method of forming an ohmic layer and method of forming a metal wiring of a semiconductor device using the same - A metal organic precursor represented by a formula of R | 09-17-2009 |
20100237423 | SEMICONDUCTOR DEVICES INCLUDING BURIED BIT LINES - A semiconductor device includes a plurality of channel structures on a semiconductor substrate. A bit line groove having opposing sidewalls is defined between sidewalls of adjacent ones of the plurality of channel structures. A plurality of bit lines are formed on corresponding ones of the opposing sidewalls, and the plurality of bit lines are electrically isolated from each other | 09-23-2010 |
20100240184 | METHOD OF FORMING BURIED GATE ELECTRODE - A method of forming a buried gate electrode prevents voids from being formed in a silicide layer of the gate electrode. The method begins by forming a trench in a semiconductor substrate, forming a conformal gate oxide layer on the semiconductor in which the trench has been formed, forming a first gate electrode layer on the gate oxide layer, forming a silicon layer on the first gate electrode layer to fill the trench. Then, a portion of the first gate electrode layer is removed to form a recess which exposed a portion of a lateral surface of the silicon layer. A metal layer is then formed on the semiconductor substrate including on the silicon layer. Next, the semiconductor substrate is annealed while the lateral surface of the silicon layer is exposed to form a metal silicide layer on the silicon layer. | 09-23-2010 |
20100240185 | Semiconductor device and method of manufacturing the same - A method of manufacturing a semiconductor device includes: forming a trench for forming buried type wires by etching a substrate; forming first and second oxidation layers on a bottom of the trench and a wall of the trench, respectively; removing a part of the first oxidation layer and the entire second oxidation layer; and forming the buried type wires on the wall of the trench by performing a silicide process on the wall of the trench from which the second oxidation layer is removed. As a result, the buried type wires are insulated from each other. | 09-23-2010 |
20110092060 | METHODS OF FORMING WIRING STRUCTURES - A semiconductor memory wiring method includes: receiving a substrate having a cell array region and a peripheral circuit region; depositing a first insulating layer on the substrate; forming a first contact plug in the cell array region, the first contact plug having a first conductive material extending through the first insulating layer; forming a first elongated conductive line at substantially the same time as forming the first contact plug, the first elongated conductive line having the first conductive material directly covering and integrated with the first contact plug; forming a second contact plug in the peripheral circuit region at substantially the same time as forming the first contact plug, the second contact plug having the first conductive material extending through the first insulating layer; and forming a second elongated conductive line at substantially the same time as forming the second contact plug, the second elongated conductive line having the first conductive material directly covering and integrated with the second contact plug. | 04-21-2011 |