Patent application number | Description | Published |
20130171792 | Methods for Semiconductor Regrowth - A treatment is performed on a surface of a first semiconductor region, wherein the treatment is performed using process gases including an oxygen-containing gas and an etching gas for etching the semiconductor material. An epitaxy is performed to grow a second semiconductor region on the surface of the first semiconductor region. | 07-04-2013 |
20130228875 | Apparatus and Method for FinFETs - A FinFET comprises an isolation region formed in a substrate, a cloak-shaped active region formed over the substrate, wherein the cloak-shaped active region has an upper portion protruding above a top surface of the isolation region. In addition, the FinFET comprises a gate electrode wrapping the channel of the cloak-shaped active region. | 09-05-2013 |
20130240836 | FinFET Having Superlattice Stressor - A fin field effect transistor (FinFET) device is provided. The FinFET includes a superlattice layer and a strained layer. The superlattice layer is supported by a substrate. The strained layer is disposed on the superlattice layer and provides a gate channel. The gate channel is stressed by the superlattice layer. In an embodiment, the superlattice layer is formed by stacking different silicon germanium alloys or stacking other III-V semiconductor materials. | 09-19-2013 |
20140217499 | Methods for Forming Semiconductor Regions in Trenches - A structure includes a semiconductor substrate including a first semiconductor material. A portion of the semiconductor substrate extends between insulation regions in the semiconductor substrate. The portion of the semiconductor substrate has a (111) surface and a bottom surface. The (111) surface is slanted and has a top edge and a bottom edge. The bottom surface is parallel to a top surface of the insulation regions, and is connected to the bottom edge. A semiconductor region overlaps the portion of the semiconductor substrate, wherein the semiconductor region includes a second semiconductor material different from the first semiconductor material. The top edge and the bottom edge of the (111) surface are at a first depth and a second depth, respectively, relative to a top surface of the semiconductor region. A ratio of the first depth to the second depth is smaller than about 0.6. | 08-07-2014 |
20140220751 | Methods for Forming Semiconductor Regions in Trenches - A method includes recessing a portion of a semiconductor substrate between opposite isolation regions to form a recess. After the step of recessing, the portion of the semiconductor substrate includes a top surface. The top surface includes a flat surface, and a slant surface having a (111) surface plane. The slant surface has a bottom edge connected to the flat surface, and a top edge connected to one of the isolation regions. The method further includes performing an epitaxy to grow a semiconductor material in the recess, wherein the semiconductor material is grown from the flat surface and the slant surface, and performing an annealing on the semiconductor material. | 08-07-2014 |
20140220753 | Apparatus and Method for FinFETs - A FinFET comprises an isolation region formed in a substrate, a cloak-shaped active region formed over the substrate, wherein the cloak-shaped active region has an upper portion protruding above a top surface of the isolation region. In addition, the FinFET comprises a gate electrode wrapping the channel of the cloak-shaped active region. | 08-07-2014 |
20140239402 | FinFETs with Strained Well Regions - A device includes a substrate and insulation regions over a portion of the substrate. A first semiconductor region is between the insulation regions and having a first conduction band. A second semiconductor region is over and adjoining the first semiconductor region, wherein the second semiconductor region includes an upper portion higher than top surfaces of the insulation regions to form a semiconductor fin. The semiconductor fin has a tensile strain and has a second conduction band lower than the first conduction band. A third semiconductor region is over and adjoining a top surface and sidewalls of the semiconductor fin, wherein the third semiconductor region has a third conduction band higher than the second conduction band. | 08-28-2014 |
20140252469 | FinFETs with Strained Well Regions - A device includes a substrate and insulation regions over a portion of the substrate. A first semiconductor region is between the insulation regions and having a first conduction band. A second semiconductor region is over and adjoining the first semiconductor region, wherein the second semiconductor region includes an upper portion higher than top surfaces of the insulation regions to form a semiconductor fin. The second semiconductor region also includes a wide portion and a narrow portion over the wide portion, wherein the narrow portion is narrower than the wide portion. The semiconductor fin has a tensile strain and has a second conduction band lower than the first conduction band. A third semiconductor region is over and adjoining a top surface and sidewalls of the semiconductor fin, wherein the third semiconductor region has a third conduction band higher than the second conduction band. | 09-11-2014 |
20140284726 | Apparatus and Method for FinFETs - A FinFET device comprises an isolation region in a substrate, wherein the isolation region comprises a plurality of non-vertical sidewalls, a first V-shaped groove, a second V-shaped groove and a third V-shaped groove formed in the substrate, a first cloak-shaped active region over the first V-shaped groove, wherein a top surface of the first cloak-shaped active region comprises a first slope, a second cloak-shaped active region over the second V-shaped groove, wherein a top surface of the second cloak-shaped active region is triangular in shape and | 09-25-2014 |
20150054040 | FINFETS WITH STRAINED WELL REGIONS - A device includes a substrate, insulation regions extending into the substrate, a first semiconductor region between the insulation regions and having a first valence band, and a second semiconductor region over and adjoining the first semiconductor region. The second semiconductor region has a compressive strain and a second valence band higher than the first valence band. The second semiconductor region includes an upper portion higher than top surfaces of the insulation regions to form a semiconductor fin, and a lower portion lower than the top surfaces of the insulation regions. The upper portion and the lower portion are intrinsic. A semiconductor cap adjoins a top surface and sidewalls of the semiconductor fin. The semiconductor cap has a third valence band lower than the second valence band. | 02-26-2015 |