Patent ID: 7473626

Claim:
A method of forming a complementary metal oxide semiconductor (CMOS) structure comprising: forming a first poly-Si containing material on a surface of a gate dielectric which is located on a semiconductor substrate having at least one nFET device region and at least one pFET device region, said first poly-Si containing material having a thickness of about 50 nm or less and having an interface with said gate dielectric; selectively introducing dopant atoms into said first poly-Si containing material by gas phase doping and annealing at a temperature of about 500° C. or greater, wherein n-type dopants including at least one atom from Group VA of the Periodic Table of Elements are introduced into a region of said first poly-Si containing material atop said at least one nFET device region and p-type dopants including at least one atom from Group IIIA of the Periodic Table of Elements are introduced into another region of said first poly-Si containing material atop said at least one pFET device region, and wherein said interface between said first poly-Si material and said gate dielectric has a concentration of dopants of about 10 19 atoms/cm 3 or greater which are uniformly distributed; forming a second poly-Si containing material on said first poly-Si containing material, said second poly-Si containing material having a thickness that is greater than the first poly-Si containing material; selectively doping by a masked ion implantation process said second poly-Si containing material such that p-type dopants including at least one atom from Group IIIA of the Periodic Table of Elements are provided to a region of said second poly-Si containing material atop said at least one pFET device region and n-type dopants including at least one atom from Group VA of the Periodic Table of Elements are provided to another region of said second poly Si-containing material atop said at least one nFET device region; and forming at least one nFET and at least one pFET on said semiconductor substrate, said at least one nFET including a patterned stack comprising, from bottom to top, said gate dielectric, said first poly-Si containing material that is doped n-type and said second poly-Si containing material that is doped n-type, and said at least one pFET including a patterned stack comprising, from bottom to top, said gate dielectric, said first poly-Si containing material that is doped p-type and said second poly-Si containing material that is doped p-type.