Patent application number | Description | Published |
20130175578 | IO ESD Device and Methods for Forming the Same - A method includes forming an ESD diode including performing an epitaxy growth to form an epitaxy region comprising silicon and substantially free from germanium. The epitaxy region is doped with a p-type impurity to form a p-type region, wherein the p-type region forms an anode of the ESD diode. | 07-11-2013 |
20130224952 | Curved Wafer Processing on Method and Apparatus - An apparatus for and a method of forming a semiconductor structure is provided. The apparatus includes a substrate holder that maintains a substrate such that the processing surface is curved, such as a convex or a concave shape. The substrate is held in place using point contacts, a plurality of continuous contacts extending partially around the substrate, and/or a continuous ring extending completely around the substrate. The processing may include, for example, forming source/drain regions, channel regions, silicides, stress memorization layers, or the like. | 08-29-2013 |
20130228866 | Semiconductor Devices and Manufacturing and Design Methods Thereof - Semiconductor devices and manufacturing and design methods thereof are disclosed. In one embodiment, a semiconductor device includes an active FinFET disposed over a workpiece comprising a first semiconductive material, the active FinFET comprising a first fin. An electrically inactive FinFET structure is disposed over the workpiece proximate the active FinFET, the electrically inactive FinFET comprising a second fin. A second semiconductive material is disposed between the first fin and the second fin. | 09-05-2013 |
20130277744 | IO ESD Device and Methods for Forming the Same - A method includes forming an ESD diode including performing an epitaxy growth to form an epitaxy region comprising silicon and substantially free from germanium. The epitaxy region is doped with a p-type impurity to form a p-type region, wherein the p-type region forms an anode of the ESD diode. | 10-24-2013 |
20130320452 | Semiconductor Device and Method of Forming the Same - A semiconductor device and method for fabricating a semiconductor device is disclosed. An exemplary semiconductor device includes a semiconductor substrate including an active region including a plurality of device regions. The semiconductor device further includes a first device disposed in a first device region of the plurality of device regions, the first device including a first gate structure, first gate spacers disposed on sidewalls of the first gate structure, and first source and drain features. The semiconductor device further includes a second device disposed in a second device region of the plurality of device regions, the second device including a second gate structure, second gate spacers disposed on sidewalls of the second gate structure, and second source and drain features. The second and first source and drain features having a source and drain feature and a contact feature in common. The common contact feature being a self-aligned contact. | 12-05-2013 |
20140048888 | Strained Structure of a Semiconductor Device - A semiconductor device comprises a substrate comprising a major surface; a p-type Field Effect Transistor (pFET) comprising: a P-gate stack over the major surface, a P-strained region in the substrate adjacent to one side of the P-gate stack, wherein a lattice constant of the P-strained region is different from a lattice constant of the substrate, wherein the P-strained region has a first top surface higher than the major surface; and a P-silicide region on the P-strained region; and an n-type Field Effect Transistor (nFET) comprising: an N-gate stack over the major surface, an N-strained region in the substrate adjacent to one side of the N-gate stack, wherein a lattice constant of the N-strained region is different from a lattice constant of the substrate, wherein the N-strained region has a second top surface lower than the major surface and a N-silicide region on the N-strained region. | 02-20-2014 |
20140147978 | Strained Structure of a Semiconductor Device - A semiconductor device comprises a substrate comprising a major surface; a p-type Field Effect Transistor (pFET) comprising: a P-gate stack over the major surface, a P-strained region in the substrate adjacent to one side of the P-gate stack, wherein a lattice constant of the P-strained region is different from a lattice constant of the substrate, wherein the P-strained region has a first top surface higher than the major surface; and a P-silicide region on the P-strained region; and an n-type Field Effect Transistor (nFET) comprising: an N-gate stack over the major surface, an N-strained region in the substrate adjacent to one side of the N-gate stack, wherein a lattice constant of the N-strained region is different from a lattice constant of the substrate, wherein the N-strained region has a second top surface lower than the major surface and a N-silicide region on the N-strained region. | 05-29-2014 |
20140175513 | Structure And Method For Integrated Devices On Different Substartes With Interfacial Engineering - The present disclosure provides one embodiment of a semiconductor structure. The semiconductor structure includes a semiconductor substrate having a first semiconductor material and a first reactivity; and a low reactivity capping layer of disposed on the semiconductor substrate, wherein the low reactivity capping layer includes a second semiconductor material and a second reactivity less than the first reactivity, the low reactivity capping layer includes silicon germanium Si | 06-26-2014 |
20150017768 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING THE SAME - A semiconductor device and method for fabricating a semiconductor device is disclosed. An exemplary semiconductor device includes a semiconductor substrate including an active region including a plurality of device regions. The semiconductor device further includes a first device disposed in a first device region of the plurality of device regions, the first device including a first gate structure, first gate spacers disposed on sidewalls of the first gate structure, and first source and drain features. The semiconductor device further includes a second device disposed in a second device region of the plurality of device regions, the second device including a second gate structure, second gate spacers disposed on sidewalls of the second gate structure, and second source and drain features. The second and first source and drain features having a source and drain feature and a contact feature in common. The common contact feature being a self-aligned contact. | 01-15-2015 |