Patent application number | Description | Published |
20150053912 | Integrate Circuit With Nanowires - The present disclosure provides an integrated circuit (IC). The IC includes a substrate having a metal-oxide-semiconductor (MOS) region. The IC further includes first gate, source and drain regions, having a first length, and second gate, source and drain regions, having a second length. A first nanowire set is disposed in the first gate region, the first nanowire set including a nanowire having a first diameter and connecting to a feature in the first source region and a feature in the first drain region. A second nanowire set is disposed in the second gate region, the second nanowire set including a nanowire having a second diameter and connecting to a feature in the second source region and a feature in the second drain region. The diameters are such that if the first length is greater than the second length, the first diameter is less than the second diameter, and vice versa. | 02-26-2015 |
20150137067 | NANOWIRE MOSFET WITH DIFFERENT SILICIDES ON SOURCE AND DRAIN - A nanowire field effect transistor (FET) device and method for forming a nanowire FET device are provided. A nanowire FET including a source region and a drain region is formed. The nanowire FET further includes a nanowire that connects the source region and the drain region. A source silicide is formed on the source region, and a drain silicide is formed on the drain region. The source silicide is comprised of a first material that is different from a second material comprising the drain silicide. | 05-21-2015 |
20150214318 | ALIGNED GATE-ALL-AROUND STRUCTURE - A semiconductor device includes a gate disposed over a substrate. The gate has a first gate portion of the gate including a gate dielectric and a gate electrode disposed above a first channel region and a second gate portion including a gate dielectric and a gate electrode disposed between the substrate and the first channel region and aligned with the first gate portion. A source and a drain region are disposed adjacent the gate. A dielectric layer is disposed on the substrate and has a first portion underlying at least some of the source, a second portion underlying at least some of the drain; and a third portion underlying at least some of the first channel, the first gate portion and the second gate portion. | 07-30-2015 |
20150303197 | Semiconductor Device and Fabricating the Same - An integrated circuit (IC) device comprises a substrate having a metal-oxide-semiconductor (MOS) region; a gate region disposed over the substrate and in the MOS region; and source/drain features in the MOS region and separated by the gate region. The gate region includes a fin structure and a nanowire over the fin structure. The nanowire extends from the source feature to the drain feature. | 10-22-2015 |
20150303198 | METHOD AND STRUCTURE FOR FINFET DEVICE - The present disclosure provides a method for fabricating a fin-like field-effect transistor (FinFET). The method includes forming a first fin structures over a substrate, forming a patterned oxidation-hard-mask (OHM) over the substrate to expose the first fin structure in a first gate region of a n-type FET region, forming a semiconductor oxide feature in a middle portion of the first fin structure in the first gate region, forming a second fin structure in a PFET region, forming dummy gates, forming source/drain (S/D) features, replacing the dummy gates by a first high-k/metal gate (HK/MG) in the NFET region and a second HK/MG in the PFET region. | 10-22-2015 |
20150303305 | FinFET Device with High-K Metal Gate Stack - The present disclosure provides a semiconductor device that includes a substrate, a first fin structure over the substrate. The first fin structure includes a first semiconductor material layer, having a semiconductor oxide layer as its outer layer, as a lower portion of the first fin structure. The first semiconductor has a first width. The first fin structure also includes a second semiconductor material layer as an upper portion of the first fin structure. The second semiconductor material layer has a third width, which is substantially smaller than the first width. The semiconductor structure also includes a gate region formed over a portion of the first fin and a high-k (HK)/metal gate (MG) stack on the substrate including wrapping over a portion of the first fin structure in the gate region. | 10-22-2015 |
20150311207 | Structure and Method for FinFET Device - The present disclosure provides an embodiment of a fin-like field-effect transistor (FinFET) device. The device includes a plurality of first fin structures over a substrate. The first fin structure includes a first semiconductor material layer, a second semiconductor material layer disposed over the first semiconductor material layer, being at least partially surrounded by a semiconductor oxide feature. The device also includes a third semiconductor material layer disposed over the second semiconductor material layer and a second fin structures over the substrate and adjacent to one of the first fin structures. The second fin structure includes the first semiconductor material layer and the third semiconductor material layer disposed over the dielectric layer. | 10-29-2015 |
20150311212 | Structure and Method for SRAM FinFET Device - The present disclosure provides an embodiment of a fin-like field-effect transistor (FinFET) device. The device includes a substrate having an n-type FinFET (NFET) region and a p-type FinFET (PFET) region. The device also includes a first and a second fin structures over the substrate in the NFET region and a third fin structure over the substrate in the PFET region. The device also includes a first high-k (HK)/metal gate (MG) stack in the NFET region, including wrapping over a portion of the first fin structure, a first subset of the first source/drain (S/D) features, adjacent to the first HK/MG stack, over the recessed first fin structure and a second subset of the first S/D features partially over the recessed second fin structure and partially over the recessed first fin structure. | 10-29-2015 |
20150311335 | STRUCTURE AND METHOD FOR FINFET DEVICE - The present disclosure provides a fin-like field-effect transistor (FinFET) device. The device includes a substrate having a first region, a second region and a third region. The first region includes a first fin structure, a first high-k (HK)/metal gate (MG) stack wrapping over an upper portion of the first fin structure and a first source/drain features, separated by the first HK/MG stack, over the recessed first fin structure. The second region includes a second fin structure, the first source/drain features over a portion of the recessed second fin structure. The third region includes a dummy gate stack over the second fin structure and the two first regions are separated by the second region, or by the third region. | 10-29-2015 |
20150311336 | Structure and Method for FinFET Device - The present disclosure provides an embodiment of a fin-like field-effect transistor (FinFET) device. The device includes a substrate having a first gate region, a first fin structure over the substrate in the first gate region. The first fin structure includes an upper semiconductor material member, a lower semiconductor material member, surrounded by an oxide feature and a liner wrapping around the oxide feature of the lower semiconductor material member, and extending upwards to wrap around a lower portion of the upper semiconductor material member. The device also includes a dielectric layer laterally proximate to an upper portion of the upper semiconductor material member. Therefore the upper semiconductor material member includes a middle portion that is neither laterally proximate to the dielectric layer nor wrapped by the liner. | 10-29-2015 |