Patent application number | Description | Published |
20090108365 | HIGH-K DIELECTRIC METAL GATE DEVICE STRUCTURE AND METHOD FOR FORMING THE SAME - A metal gate/high-k dielectric semiconductor device provides an NMOS gate structure and a PMOS gate structure formed on a semiconductor substrate. The NMOS gate structure includes a high-k gate dielectric treated with a dopant impurity such as La and the high-k gate dielectric material of the PMOS gate structure is deficient of this dopant impurity and further includes a work function tuning layer over the high-k gate dielectric. A process for simultaneously forming the NMOS and PMOS gate structures includes forming the high-k gate dielectric material, and the work function tuning layer thereover, then selectively removing the work function tuning layer from the NMOS region and carrying out a plasma treatment to selectively dope the high-k gate dielectric material in the NMOS region with a dopant impurity while the high-k gate dielectric in the PMOS region is substantially free of the dopant impurity. | 04-30-2009 |
20100044800 | High-K dielectric metal gate device structure - A metal gate/high-k dielectric semiconductor device provides an NMOS gate structure and a PMOS gate structure formed on a semiconductor substrate. The NMOS gate structure includes a high-k gate dielectric treated with a dopant impurity such as La and the high-k gate dielectric material of the PMOS gate structure is deficient of this dopant impurity and further includes a work function tuning layer over the high-k gate dielectric. | 02-25-2010 |
20100044803 | SEALING STRUCTURE FOR HIGH-K METAL GATE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate and a transistor formed in the substrate. The transistor includes a gate stack having a high-k dielectric and metal gate, a sealing layer formed on sidewalls of the gate stack, the sealing layer having an inner edge and an outer edge, the inner edge interfacing with the sidewall of the gate stack, a spacer formed on the outer edge of the sealing layer, and a source/drain region formed on each side of the gate stack, the source/drain region including a lightly doped source/drain (LDD) region that is aligned with the outer edge of the sealing layer. | 02-25-2010 |
20100044804 | NOVEL HIGH-K METAL GATE STRUCTURE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate, a transistor formed in the substrate, the transistor including a high-k gate dielectric formed over the substrate, the high-k gate dielectric having a first length measured from one sidewall to the other sidewall of the high-k gate dielectric, and a metal gate formed over the high-k gate dielectric, the metal gate having a second length measured from one sidewall to the other sidewall of the metal gate, the second length being smaller than the first length. | 02-25-2010 |
20100052067 | METHOD OF FABRICATING DUAL HIGH-K METAL GATES FOR MOS DEVICES - The present disclosure provides a method of fabricating a semiconductor device. The method includes providing a semiconductor substrate having a first region and a second region, forming a high-k dielectric layer over the semiconductor substrate, forming a capping layer over the high-k dielectric layer in the first region, forming a first metal layer over capping layer in the first region and over the high-k dielectric in the second region, thereafter, forming a first gate stack in the first region and a second gate stack in the second region, protecting the first metal layer in the first gate stack while performing a treatment process on the first metal layer in the second gate stack, and forming a second metal layer over the first metal layer in the first gate stack and over the treated first metal layer in the second gate stack. | 03-04-2010 |
20100052076 | METHOD OF FABRICATING HIGH-K POLY GATE DEVICE - The present disclosure provides a semiconductor device that includes a semiconductor substrate, and a transistor formed in the substrate. The transistor has a gate structure that includes an interfacial layer formed on the substrate, a high-k dielectric layer formed on the interfacial layer, a capping layer formed on the high-k dielectric layer, the capping layer including a silicon oxide, silicon oxynitride, silicon nitride, or combinations thereof, and a polysilicon layer formed on the capping layer. | 03-04-2010 |
20100052077 | HIGH-K METAL GATE STRUCTURE INCLUDING BUFFER LAYER - A high-k metal gate structure including a buffer layer and method of fabrication of such, is provided. The buffer layer may interpose an interface oxide layer and a high-k gate dielectric layer. In one embodiment, the buffer layer includes aluminum oxide. The buffer layer and the high-k gate dielectric layer may be formed in-situ using an atomic layer deposition (ALD) process. | 03-04-2010 |
20110117734 | Method of Fabricating High-K Poly Gate Device - The present disclosure provides a semiconductor device that includes a semiconductor substrate, and a transistor formed in the substrate. The transistor has a gate structure that includes an interfacial layer formed on the substrate, a high-k dielectric layer formed on the interfacial layer, a capping layer formed on the high-k dielectric layer, the capping layer including a silicon oxide, silicon oxynitride, silicon nitride, or combinations thereof, and a polysilicon layer formed on the capping layer. | 05-19-2011 |
20120086085 | METHOD OF FABRICATING DUAL HIGH-K METAL GATE FOR MOS DEVICES - The present disclosure provides a method of fabricating a semiconductor device. The method includes providing a semiconductor substrate having a first region and a second region, forming a high-k dielectric layer over the semiconductor substrate, forming a capping layer over the high-k dielectric layer in the first region, forming a first metal layer over capping layer in the first region and over the high-k dielectric in the second region, thereafter, forming a first gate stack in the first region and a second gate stack in the second region, protecting the first metal layer in the first gate stack while performing a treatment process on the first metal layer in the second gate stack, and forming a second metal layer over the first metal layer in the first gate stack and over the treated first metal layer in the second gate stack. | 04-12-2012 |
20120225529 | SEALING STRUCTURE FOR HIGH-K METAL GATE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate and a transistor formed in the substrate. The transistor includes a gate stack having a high-k dielectric and metal gate, a sealing layer formed on sidewalls of the gate stack, the sealing layer having an inner edge and an outer edge, the inner edge interfacing with the sidewall of the gate stack, a spacer formed on the outer edge of the sealing layer, and a source/drain region formed on each side of the gate stack, the source/drain region including a lightly doped source/drain (LDD) region that is aligned with the outer edge of the sealing layer. | 09-06-2012 |
20120276732 | PROTECTION LAYER FOR PREVENTING LASER DAMAGE ON SEMICONDUCTOR DEVICES - A method for forming a semiconductor structure is provided to prevent energy that is used to blow at least one fuse formed on a metal layer above a semiconductor substrate from causing damage on the structure. The semiconductor structure includes a device, guard ring, protection ring, and at least one protection layer. The device is constructed on the semiconductor substrate underneath the fuse. A seal ring, which surrounds the fuse, is constructed on at least one metal layer between the device and the fuse for confining the energy therein. The protection layer is formed within the seal ring, on at least one metal layer between the device and the fuse for shielding the device from being directly exposed to the energy. | 11-01-2012 |