Patent ID: 7785958

Claim:
A method for making a semiconductor device comprising: forming a first dielectric layer on a substrate; forming a trench within the first dielectric layer; forming a high-k gate dielectric layer on the substrate, the high-k gate dielectric layer having a first part that is formed at the bottom of the trench and a second part; forming a first metal layer on both the first and second parts of the high-k gate dielectric layer, the first metal layer being between about 25 and about 300 angstroms thick and having a first workfunction; depositing a donor metal layer, which comprises a workfunction shifting component, on a first part of the first metal layer; applying a high temperature anneal treatment to the donor metal layer to cause the workfunction shifting component to diffuse from the donor metal layer into the first metal layer to convert the first part of the first metal layer into a second metal layer with a second workfunction; forming a masking layer on the donor metal layer, where deposited on the first metal layer above the first part of the high-k gate dielectric layer; removing the exposed part of the donor metal layer, where deposited on the first metal layer above the second part of the high-k gate dielectric layer; removing the masking layer; and applying the high temperature anneal treatment; and wherein: the donor metal layer comprises a material that is selected from the group consisting of ruthenium, palladium, platinum, iridium, a refractory metal nitride, hafnium, zirconium, titanium, aluminum, and lanthanum; and the high temperature anneal takes place at a temperature of at least about 300° C. for at least about one minute to generate the second metal layer with the second workfunction.