Abstract: In a semiconductor device and a method of manufacturing the same, the semiconductor device includes a gate structure crossing an active region of a silicon substrate. Spacers are provided on both sides of the gate structure, respectively. Silicon patterns fill up recessed portions of the silicon substrate and on both sides of the spacers and has a shape protruding higher than a bottom surface of the gate structure, a lower edge of the protruded portion partially makes contact with a top surface of the isolation region, a first side and a second side of each of the silicon patterns, which are opposite to each other in a channel width direction in the gate structure, are inclined toward an inside of the active region. A highly doped impurity region is provided in the silicon patterns and doped with an N type impurity. The semiconductor device represents superior threshold voltage characteristics.

Abstract: A semiconductor device has a silicide source/drain region is fabricated by growing silicon on an epitaxial region including silicon and either germanium or carbon. In the method, a gate electrode is formed on a semiconductor substrate with a gate insulating layer interposed therebetween. An epitaxial layer is formed in the semiconductor substrate at both sides of the gate electrodes. A silicon layer is formed to cap the epitaxial layer. The silicon layer and a metal material are reacted to form a silicide layer. In a PMOS, the epitaxial layer has a top surface and inclined side surfaces that are exposed above the upper surface of the active region. The silicon layer is grown on the epitaxial layer in such a way as to cap the top and inclined surfaces.

Abstract: Semiconductor devices are provided including a substrate having a first surface and a second surface recessed from opposite sides of the first surface, a gate pattern formed on the first surface and having a gate insulating layer and a gate electrode, a carbon-doped silicon buffer layer formed on the second surface, and source and drain regions doped with an n-type dopant or p-type dopant, epitaxially grown on the silicon buffer layer to be elevated from a top surface of the gate insulating layer.

Abstract: A semiconductor device includes a semiconductor substrate, a gate electrode structure including a gate electrode located on an active region of the semiconductor substrate, first and second epitaxial regions located in the active region at opposite sides of the gate electrode structure, and first and second silicide layers on upper surfaces of the first and second epitaxial regions, respectively. The first and second epitaxial regions include Si—X, where X is one of germanium and carbon, and at least a portion of each of the first and second silicide layers is devoid of X and includes Si—Y, where Y is a metal or metal alloy.

Abstract: In a semiconductor device and a method of manufacturing the same, the semiconductor device includes a gate structure crossing an active region of a silicon substrate. Spacers are provided on both sides of the gate structure, respectively. Silicon patterns fill up recessed portions of the silicon substrate and on both sides of the spacers and has a shape protruding higher than a bottom surface of the gate structure, a lower edge of the protruded portion partially makes contact with a top surface of the isolation region, a first side and a second side of each of the silicon patterns, which are opposite to each other in a channel width direction in the gate structure, are inclined toward an inside of the active region. A highly doped impurity region is provided in the silicon patterns and doped with an N type impurity. The semiconductor device represents superior threshold voltage characteristics.

Abstract: Semiconductor devices are provided including a substrate having a first surface and a second surface recessed from opposite sides of the first surface, a gate pattern formed on the first surface and having a gate insulating layer and a gate electrode, a carbon-doped silicon buffer layer formed on the second surface, and source and drain regions doped with an n-type dopant or p-type dopant, epitaxially grown on the silicon buffer layer to be elevated from a top surface of the gate insulating layer.

Abstract: A semiconductor device includes a semiconductor substrate, a gate electrode structure including a gate electrode located on an active region of the semiconductor substrate, first and second epitaxial regions located in the active region at opposite sides of the gate electrode structure, and first and second silicide layers on upper surfaces of the first and second epitaxial regions, respectively.

Abstract: A semiconductor device includes a semiconductor substrate including a plurality of active areas defined by a device isolation layer, a gate line structure crossing the plurality of active areas, a buffer insulation layer on the semiconductor substrate, the buffer insulation layer contacting a portion of a side of the gate line structure, a contact etching stopper layer on the buffer insulation layer, and a contact plug passing through the buffer insulation layer and the contact etching stopper layer to be connected to the plurality of active areas.