Patent application number | Description | Published |
20150035073 | ENABLING ENHANCED RELIABILITY AND MOBILITY FOR REPLACEMENT GATE PLANAR AND FINFET STRUCTURES - A method for semiconductor fabrication includes forming at least one of a diffusion barrier layer and a metal containing layer over a dielectric layer in a gate cavity. A first anneal is performed to diffuse elements from the at least one of the diffusion barrier layer and the metal containing layer into the dielectric layer. The metal containing layer and the diffusion barrier layer are removed. A second anneal is performed to adjust diffusion of the elements in the dielectric layer to provide a gate dielectric region. | 02-05-2015 |
20150147876 | LOW THRESHOLD VOLTAGE CMOS DEVICE - A replacement metal gate process in which a high-k dielectric is applied. The high-k dielectric may be doped with lanthanum in an NMOS region or aluminum in a PMOS region. Alternatively, after a dummy gate is removed in the NMOS and PMOS regions to leave openings in the NMOS and PMOS regions, lanthanum oxide may be deposited in the NMOS opening or aluminum oxide deposited in the PMOS opening. Thereafter, first work function metals are deposited in the NMOS opening and second work function metals are applied in the PMOS openings. A suitable gate electrode material may then fill the remainder of the NMOS and PMOS openings. | 05-28-2015 |
20150228749 | ENABLING ENHANCED RELIABILITY AND MOBILITY FOR REPLACEMENT GATE PLANAR AND FINFET STRUCTURES - A method for semiconductor fabrication includes forming at least one of a diffusion barrier layer and a metal containing layer over a dielectric layer in a gate cavity. A first anneal is performed to diffuse elements from the at least one of the diffusion barrier layer and the metal containing layer into the dielectric layer. The metal containing layer and the diffusion barrier layer are removed. A second anneal is performed to adjust diffusion of the elements in the dielectric layer to provide a gate dielectric region. | 08-13-2015 |
20150249015 | ENABLING ENHANCED RELIABILITY AND MOBILITY FOR REPLACEMENT GATE PLANAR AND FINFET STRUCTURES - A method for semiconductor fabrication includes forming at least one of a diffusion barrier layer and a metal containing layer over a dielectric layer in a gate cavity. A first anneal is performed to diffuse elements from the at least one of the diffusion barrier layer and the metal containing layer into the dielectric layer. The metal containing layer and the diffusion barrier layer are removed. A second anneal is performed to adjust diffusion of the elements in the dielectric layer to provide a gate dielectric region. | 09-03-2015 |
20150325473 | INTEGRATED CIRCUITS WITH METAL-TITANIUM OXIDE CONTACTS AND FABRICATION METHODS - Devices and methods for forming semiconductor devices with metal-titanium oxide contacts are provided. One intermediate semiconductor device includes, for instance: a substrate, at least one field-effect transistor disposed on the substrate, a first contact region positioned over at least a first portion of the at least one field-effect transistor between a spacer and an interlayer dielectric, and a second contact region positioned over at least a second portion of the at least one field-effect transistor between a spacer and an interlayer dielectric. One method includes, for instance: obtaining an intermediate semiconductor device and forming at least one contact on the intermediate semiconductor device. | 11-12-2015 |
20160079168 | INTEGRATED CIRCUITS WITH METAL-TITANIUM OXIDE CONTACTS AND FABRICATION METHODS - Devices and methods for forming semiconductor devices with metal-titanium oxide contacts are provided. One intermediate semiconductor device includes, for instance: a substrate, at least one field-effect transistor disposed on the substrate, a first contact region positioned over at least a first portion of the at least one field-effect transistor between a spacer and an interlayer dielectric, and a second contact region positioned over at least a second portion of the at least one field-effect transistor between a spacer and an interlayer dielectric. One method includes, for instance: obtaining an intermediate semiconductor device and forming at least one contact on the intermediate semiconductor device. | 03-17-2016 |
20160093711 | Tantalum carbide metal gate stack for mid-gap work function applications - Devices with lightly-doped semiconductor channels (e.g., FinFETs) need mid-gap (˜4.6-4.7 eV) work-function layers, preferably with low resistivity and a wide process window, in the gate stack. Tantalum carbide (TaC) has a mid-gap work function that is insensitive to thickness. TaC can be deposited with good adhesion on high-k materials or on optional metal-nitride cap layers. TaC can also serve as the fill metal, or it can be used with other fills such as tungsten (W) or aluminum (Al). The TaC may be sputtered from a TaC target, deposited by ALD or CVD using TaCl | 03-31-2016 |
20160126145 | LOW THRESHOLD VOLTAGE CMOS DEVICE - A replacement metal gate process in which a high-k dielectric is applied. The high-k dielectric may be doped with lanthanum in an NMOS region or aluminum in a PMOS region. A dummy gate structure may be formed over the high-k dielectric and etched to form an opening over the NMOS region and an opening over the PMOS region. Thereafter, first work function metals are deposited in the NMOS opening and second work function metals are applied in the PMOS openings. A suitable gate electrode material may then fill the remainder of the NMOS and PMOS openings. | 05-05-2016 |