Patent application number | Description | Published |
20100124818 | FABRICATING HIGH-K/METAL GATE DEVICES IN A GATE LAST PROCESS - The present disclosure provides a method that includes forming first and second gate structures over first and second regions, respectively, removing a first dummy gate and first dummy dielectric from the first gate structure thereby forming a first trench and removing a second dummy gate and second dummy dielectric from the second gate structure thereby forming a second trench, forming a gate layer to partially fill the first and second trenches, forming a material layer to fill the remainder of the first and second trenches, removing a portion of the material layer such that a remaining portion of the material layer protects a first portion of the gate layer located at a bottom portion of the first and second trenches, removing a second portion of the gate layer, removing the remaining portion of the material layer from the first and second trenches. | 05-20-2010 |
20110193180 | METHOD AND APPARATUS OF FORMING A GATE - The present disclosure provides an apparatus that includes a semiconductor device. The semiconductor device includes a substrate. The semiconductor device also includes a first gate dielectric layer that is disposed over the substrate. The first gate dielectric layer includes a first material. The first gate dielectric layer has a first thickness that is less than a threshold thickness at which a portion of the first material of the first gate dielectric layer begins to crystallize. The semiconductor device also includes a second gate dielectric layer that is disposed over the first gate dielectric layer. The second gate dielectric layer includes a second material that is different from the first material. The second gate dielectric layer has a second thickness that is less than a threshold thickness at which a portion of the second material of the second gate dielectric layer begins to crystallize. | 08-11-2011 |
20110256731 | METHOD FOR FABRICATING A GATE DIELECTRIC LAYER - A method for fabricating the gate dielectric layer comprises forming a high-k dielectric layer over a substrate; forming an oxygen-containing layer on the high-k dielectric layer by an atomic layer deposition process; and performing an inert plasma treatment on the oxygen-containing layer. | 10-20-2011 |
20120264281 | METHOD OF FABRICATING A PLURALITY OF GATE STRUCTURES - The invention relates to integrated circuit fabrication, and more particularly to a semiconductor device with a plurality of gate structures. An exemplary method of fabricating the plurality of gate structures comprises providing a silicon substrate; depositing a dummy oxide layer over the substrate; depositing a dummy gate electrode layer over the dummy oxide layer; patterning the layers to define a plurality of dummy gates; forming nitrogen-containing sidewall spacers on the plurality of dummy gates; forming an interlayer dielectric layer between the nitrogen-containing sidewall spacers; selectively depositing a hard mask layer on the interlayer dielectric layer by an atomic layer deposition (ALD) process; removing the dummy gate electrode layer; removing the dummy oxide layer; depositing a gate dielectric; and depositing a gate electrode. | 10-18-2012 |
20130026637 | METAL GATE ELECTRODE OF A FIELD EFFECT TRANSISTOR - An integrated circuit fabrication is disclosed, and more particularly a field effect transistor with a low resistance metal gate electrode is disclosed. An exemplary structure for a metal gate electrode of a field effect transistor comprises a lower portion formed of a first metal material, wherein the lower portion has a recess, a bottom portion and sidewall portions, wherein each of the sidewall portions has a first width; and an upper portion formed of a second metal material, wherein the upper portion has a protrusion and a bulk portion, wherein the bulk portion has a second width, wherein the protrusion extends into the recess, wherein a ratio of the second width to the first width is from about 5 to 10. | 01-31-2013 |
20140004694 | METAL GATE ELECTRODE OF A FIELD EFFECT TRANSISTOR | 01-02-2014 |