Abstract: A semiconductor device includes a substrate structure including a first substrate and a second substrate, and a buried wiring interposed between the first substrate and the second structure, where the buried wiring is in direct contact with the second substrate. The semiconductor device further includes a vertical transistor located in the second substrate of the substrate structure.

Abstract: A semiconductor device includes: an isolation layer for defining a plurality of active areas of a substrate, where the isolation layer is disposed on the substrate; a plurality of buried word lines having upper surfaces that are lower than the upper surfaces of the active areas, being surrounded by the active areas, and extending in a first direction parallel to a main surface of the substrate; a gate dielectric film interposed between the buried word lines and the active areas; and a plurality of buried bit lines having upper surfaces that are lower than the upper surfaces of the plurality of buried word lines and extending parallel to the main surface of the substrate in a second direction that differs from the first direction.

Abstract: A method of fabricating a semiconductor device having a vertical channel transistor, the method including forming a hard mask pattern on a substrate, forming a preliminary active pillar by etching the substrate using the hard mask pattern as an etch mask, reducing a width of the preliminary active pillar to form an active pillar having a width less than that of the hard mask pattern, forming a lower source/drain region by implanting impurity ions into the substrate adjacent to the active pillar using the hard mask pattern as an ion implantation mask, and forming an upper source/drain region on the active pillar and vertically separated from the lower source/drain region.

Abstract: An integrated circuit device includes a device isolation pattern on a semiconductor substrate to define an active area therein. The active area includes a doped region therein. A conductive pattern extends on the active area and electrically contacts the doped region. The conductive pattern has a lower resistivity than the doped region. The conductive pattern may be disposed in a recessed region having a bottom surface lower than a top surface of the active area. A channel pillar electrically contacts to the doped region and extends therefrom in a direction away from the substrate. A conductive gate electrode is disposed on a sidewall of the channel pillar, and a gate dielectric layer is disposed between the gate electrode and the sidewall of the channel pillar.

Abstract: A semiconductor device includes a first active pattern protruding from a substrate, a second active pattern on the first active pattern, a gate electrode enclosing a sidewall of the second active pattern, a conductive layer pattern on the first active pattern, a first impurity region in the first active pattern, and a second impurity region at a surface portion of the second active pattern. The first active pattern extending along a predetermined direction may have a first region and a second region. The second active pattern may have a pillar structure and the conductive layer pattern may include a metal or a metal compound.

Abstract: A vertical pillar transistor may include a plurality of lower pillars, a plurality of upper pillars, a first insulation part, a second insulation part and a word line. The plurality of lower pillars protrudes substantially perpendicular to a substrate and is defined by a plurality of trenches. The plurality of lower pillars extends along a second direction and may be separated from each other along a first direction substantially perpendicular to the second direction. The plurality of upper pillars may be formed on the plurality of lower pillars. The plurality of upper pillars has a width substantially smaller than that of the plurality of lower pillars. The first insulation part has a substantially uniform thickness on a sidewall of each of the plurality of lower pillars. The second insulation part may be formed on the first insulation part to fill a gap between the adjacent upper pillars.

Abstract: A semiconductor device includes a first transistor, a second transistor, an insulation interlayer pattern and a capacitor. The first transistor is formed in a first region of a substrate. The first transistor has a pillar protruding upwardly from the substrate and an impurity region provided in an upper portion of the pillar. The second transistor is formed in a second region of the substrate. The insulation interlayer pattern is formed on the first region and the second region to cover the second transistor and expose an upper surface of the pillar. The insulation interlayer pattern has an upper surface substantially higher than the upper surface of the pillar in the first region. The capacitor is formed on the impurity region in the upper portion of the pillar and is electrically connected to the impurity region.

Abstract: A semiconductor memory device includes first and second active pillar structures protruding at an upper part of a substrate, buried bit lines each extending in a first direction, and first gate patterns and second gate patterns each extending in a second direction. The first and second active pillar structures occupy odd-numbered and even-numbered rows, respectively. The first and the second active pillar structures also occupy even-numbered and odd-numbered columns, respectively. The columns of the second active pillar structures are offset in the second direction from the columns of the first active pillar structures. Each buried bit line is connected to lower portions of the first active pillar structures which occupy one of the even-numbered columns and to lower portions of the second active pillar structures which occupy an adjacent one of the odd-numbered columns.

Abstract: In a semiconductor device, the semiconductor device may include a first active structure, a first gate insulation layer, a first gate electrode, a first impurity region, a second impurity region and a contact structure. The first active structure may include a first lower pattern in a first region of a substrate and a first upper pattern on the first lower pattern. The first gate insulation layer may be formed on a sidewall of the first upper pattern. The first gate electrode may be formed on the first gate insulation layer. The first impurity region may be formed in the first lower pattern. The second impurity region may be formed in the first upper pattern. The contact structure may surround an upper surface and an upper sidewall of the first upper pattern including the second impurity region. Accordingly, the contact resistance between the contact structure and the second impurity region may be decreased and structural stability of the contact structure may be improved.

Abstract: In a semiconductor device and associated methods, the semiconductor device includes a substrate, an insulation layer on the substrate, a conductive structure on the insulation layer, the conductive structure including at least one metal silicide film pattern, a semiconductor pattern on the conductive structure, the semiconductor pattern protruding upwardly from the conductive structure, a gate electrode at least partially enclosing the semiconductor pattern, the gate electrode being spaced apart from the conductive structure, a first impurity region at a lower portion of the semiconductor pattern, and a second impurity region at an upper portion of the semiconductor pattern.

Abstract: A vertical pillar transistor may include a plurality of lower pillars, a plurality of upper pillars, a first insulation part, a second insulation part and a word line. The plurality of lower pillars protrudes substantially perpendicular to a substrate and is defined by a plurality of trenches. The plurality of lower pillars extends along a second direction and may be separated from each other along a first direction substantially perpendicular to the second direction. The plurality of upper pillars may be formed on the plurality of lower pillars. The plurality of upper pillars has a width substantially smaller than that of the plurality of lower pillars. The first insulation part has a substantially uniform thickness on a sidewall of each of the plurality of lower pillars. The second insulation part may be formed on the first insulation part to fill a gap between the adjacent upper pillars.

Abstract: A method of fabricating a semiconductor device having a vertical channel transistor, the method including forming a hard mask pattern on a substrate, forming a preliminary active pillar by etching the substrate using the hard mask pattern as an etch mask, reducing a width of the preliminary active pillar to form an active pillar having a width less than that of the hard mask pattern, forming a lower source/drain region by implanting impurity ions into the substrate adjacent to the active pillar using the hard mask pattern as an ion implantation mask, and forming an upper source/drain region on the active pillar and vertically separated from the lower source/drain region.

Abstract: An integrated circuit semiconductor device includes a first transistor formed at a lower substrate and configured with at least one of a vertical transistor and a planar transistor. A bonding insulation layer is formed on the first transistor, and an upper substrate is bonded on the bonding insulation layer. A second transistor configured with at least one of a vertical transistor and a planar transistor is formed at the upper substrate. The first transistor and the second transistor are connected by an interconnection layer.

Abstract: A semiconductor device includes a substrate having a first area and a second area, a first active structure disposed in the first area, a second active structure disposed in the second area, a first transistor disposed in the first area and a second transistor disposed in the second area. The second active structure may have a height substantially the same as a height of the first active structure. The first transistor includes a first gate structure enclosing an upper portion of the first active structure, a first impurity region formed at a lower portion of the first active structure, and a second impurity region formed at the upper portion of the first active structure. The second transistor includes a second gate structure formed on the second active structure and third impurity regions formed at an upper portion of the second active structure.

Abstract: A semiconductor device includes a first active pattern protruding from a substrate, a second active pattern on the first active pattern, a gate electrode enclosing a sidewall of the second active pattern, a conductive layer pattern on the first active pattern, a first impurity region in the first active pattern, and a second impurity region at a surface portion of the second active pattern. The first active pattern extending along a predetermined direction may have a first region and a second region. The second active pattern may have a pillar structure and the conductive layer pattern may include a metal or a metal compound.

Abstract: An access device and a semiconductor device are disclosed. The access device includes a vertically oriented channel separating a lower source/drain region and an upper source/drain region, a gate dielectric disposed on the channel, and a unified gate electrode/connection line coupled to the channel across the gate dielectric, wherein the unified gate electrode/connection line comprises a descending lip portion disposed proximate to the gate dielectric and overlaying at least a portion of the lower source/drain region.

Abstract: A semiconductor device includes a first active pattern including an upper portion and a lower portion formed on a substrate, a second active pattern formed on the first active pattern, and a gate surrounding the second active pattern. The upper portion of the first active pattern has a cross-sectional area substantially larger than that of the lower portion of the first active pattern. The first active pattern has a curved sidewall or a level sidewall. The second active pattern has a pillar structure. The gate provides a channel through the second active pattern.