CMOS integration of dual work function phase controlled Ni FUSI with simultaneous silicidation of NMOS (NiSi) and PMOS (Ni-rich silicide) gates on HfSiON

We demonstrate for the first time CMOS integration of dual WF (work function) metal gates on HfSiON using Ni-phase controlled FUSI. The novel integration scheme that we demonstrate uses our optimized 2-step Ni FUSI process (1) for simultaneous full silicidation of nMOS and pMOS, achieving different Ni/Si ratios on nMOS and pMOS by reduction of the pMOS poly height through a selective and controlled poly etch back prior to gate silicidation. This novel integration scheme offers the advantages of 1) simplicity (same Ni deposition and silicidation process on nMOS and pMOS), 2) large process window for poly etch-back process (same pMOS characteristics for poly thickness variation of 50%), 3) WF and Vt tuning on HfSiON by phase control, with 4) scalable, linewidth independent suitable Vt´s for nMOS (0.5 V) and pMOS (-0.3 V), and 5) solves process yield issues of Ni-rich silicides related to volume expansion, stress, filaments and voiding, resulting in a continuous silicide that is nicely confined between the sidewall spacers. Ring oscillator operation was also demonstrated