Patent application number | Description | Published |
20090184376 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A dual work function semiconductor device and method for fabricating the same are disclosed. In one aspect, a device includes a first and second transistor on a first and second substrate region. The first and second transistors include a first gate stack having a first work function and a second gate stack having a second work function respectively. The first and second gate stack each include a host dielectric, a gate electrode comprising a metal layer, and a second dielectric capping layer therebetween. The second gate stack further has a first dielectric capping layer between the host dielectric and metal layer. The metal layer is selected to determine the first work function. The first dielectric capping layer is selected to determine the second work function. | 07-23-2009 |
20090261424 | METHOD FOR FABRICATING A DUAL WORKFUNCTION SEMICONDUCTOR DEVICE AND THE DEVICE MADE THEREOF - A dual workfunction semiconductor device and a device made thereof is disclosed. In one aspect, the device includes a first gate stack in a first region and a second gate stack in a second region. The first gate stack has a first effective workfunction, and the second gate stack has a second effective workfunction different from the first effective workfunction. The first gate stack includes a first gate dielectric capping layer, a gate dielectric host layer, a first metal gate electrode layer, a barrier metal gate electrode, a second gate dielectric capping layer, and a second metal gate electrode. The second gate stack includes a gate dielectric host layer, a first metal gate electrode, a second gate dielectric capping layer, and a second metal gate electrode. | 10-22-2009 |
20090283835 | METHOD FOR FABRICATING A DUAL WORKFUNCTION SEMICONDUCTOR DEVICE AND THE DEVICE MADE THEREOF - A method for manufacturing a dual workfunction semiconductor device and the device made thereof are disclosed. In one aspect, the method includes manufacturing a first transistor in a first region and a second transistor in a second region of a substrate, the first transistor including a first gate stack, the first gate stack having a first gate dielectric capping layer and a first metal gate electrode layer. The second gate stack is similar to the first gate stack. The method includes applying a first thermal budget to the first gate dielectric capping layer and a second thermal budget to the second gate dielectric capping material to tune the workfunction of the first and second gate stack, the first thermal budget being smaller than the second thermal budget such that after the thermal treatment the first and the second gate stack have different work functions. | 11-19-2009 |
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 |