Patent application number | Description | Published |
20130119487 | Structure and Method for MOSFETS with High-K and Metal Gate Structure - The present disclosure provides a semiconductor structure. The semiconductor structure includes a semiconductor substrate; and a gate stack disposed on the semiconductor substrate. The gate stack includes a high k dielectric material layer, a capping layer disposed on the high k dielectric material layer, and a metal layer disposed on the capping layer. The capping layer and the high k dielectric material layer have a footing structure. | 05-16-2013 |
20130285141 | Multi-Gate Devices with Replaced-Channels and Methods for Forming the Same - A device includes a semiconductor substrate, isolation regions in the semiconductor substrate, and a Fin Field-Effect Transistor (FinFET). The FinFET includes a channel region over the semiconductor substrate, a gate dielectric on a top surface and sidewalls of the channel region, a gate electrode over the gate dielectric, a source/drain region, and an additional semiconductor region between the source/drain region and the channel region. The channel region and the additional semiconductor region are formed of different semiconductor materials, and are at substantially level with each other. | 10-31-2013 |
20140231924 | Method For Fabricating A Multi-Gate Device - A device includes a wafer substrate including an isolation feature, at least two fin structures embedded in the isolation feature, and at least two gate stacks disposed around the two fin structures respectively. A first inter-layer dielectric (ILD) layer is disposed between the two gate stacks, with a dish-shaped recess formed therebetween, such that a bottom surface of the recess is below the top surface of the adjacent two gate stacks. A second ILD layer is disposed over the first ILD layer, including in the dish-shaped recess. The second ILD includes nitride material; the first ILD includes oxide material. | 08-21-2014 |
20140239393 | FINFET DEVICE AND METHOD OF MANUFACTURING SAME - A FinFET device and a method for fabricating a FinFET device is disclosed. An exemplary FinFET device includes a substrate including a fin structure, the fin structure including a first and a second fin. The FinFET device further includes a shallow trench isolation (STI) feature disposed on the substrate and between the first and the second fins. The FinFET device further includes a gate dielectric disposed on the first and the second fins. The FinFET device further includes a gate structure disposed on the gate dielectric. The gate structure traverses the first fin, the second fin, and the STI feature between the first fin and the second fin and has a longitudinal stepped profile. | 08-28-2014 |
20150162333 | Method for Fabricating A Multi-Gate Device - A device includes a wafer substrate including an isolation feature, at least two fin structures embedded in the isolation feature, and at least two gate stacks disposed around the two fin structures respectively. A first inter-layer dielectric (ILD) layer is disposed between the two gate stacks, with a dish-shaped recess formed therebetween, such that a bottom surface of the recess is below the top surface of the adjacent two gate stacks. A second ILD layer is disposed over the first ILD layer, including in the dish-shaped recess. The second ILD includes nitride material; the first ILD includes oxide material. | 06-11-2015 |
20160035625 | METHOD OF MANUFACTURING A FINFET DEVICE HAVING A STEPPED PROFILE - A FinFET device and a method for fabricating a FinFET device are disclosed. An exemplary method of fabricating a FINFET device includes providing a substrate including a fin structure including a plurality of fins and shallow trench isolation (STI) features between each fin of the fin structure. A first gate structure is formed over the fin structure. First gate spacers are formed on sidewalls of the first gate structure. The first gate spacers are removed while leaving portions of the first gate spacers within corners where the fin structure and the first gate structure meet. Second gate spacers are formed on sidewalls of the first gate structure. A dielectric layer is formed over the fin structure, the first gate structure, and the second gate spacers. The first gate structure and the portions of the first gate spacers are removed, thereby exposing sidewalls of the second gate spacers. A second gate structure is formed over the fin structure in a region where the first gate structure and the portions of the first gate spacers have been removed. | 02-04-2016 |
20160043002 | Multi-Gate Devices with Replaced-Channels and Methods for Forming the Same - A device includes a semiconductor substrate, isolation regions in the semiconductor substrate, and a Fin Field-Effect Transistor (FinFET). The FinFET includes a channel region over the semiconductor substrate, a gate dielectric on a top surface and sidewalls of the channel region, a gate electrode over the gate dielectric, a source/drain region, and an additional semiconductor region between the source/drain region and the channel region. The channel region and the additional semiconductor region are formed of different semiconductor materials, and are at substantially level with each other. | 02-11-2016 |
20160056232 | MULTI-GATE DEVICE STRUCTURE INCLUDING A FIN-EMBEDDED ISOLATION REGION AND METHODS THEREOF - A structure and method for implementation of high voltage devices within multi-gate device structures includes a substrate having a fin extending therefrom and a fin-embedded isolation region. In some examples, the fin-embedded isolation region includes an STI region. In some embodiments, the fin-embedded isolation separates a first portion of the fin from a second portion of the fin. Also, in some examples, the first portion of the fin includes a channel region. In various embodiments, a source region is formed in the first portion of the fin, a drain region is formed in the second portion of the fin, and an active gate is formed over the channel region. In some examples, the active gate is disposed adjacent to the source region. In addition, a plurality of dummy gates may be formed over the fin, to provide a uniform growth environment and growth profile for source and drain region formation. | 02-25-2016 |