Novel and cost-efficient single metallic silicide integration solution with dual Schottky-barrier achieved by aluminum inter-diffusion for FinFET CMOS technology with enhanced performance
2008
We have developed a novel and cost-efficient silicide integration solution to achieve a hole barrier height of 215 meV and electron barrier height of 665 meV simultaneously with a single metallic silicide based on aluminum inter-diffusion. It is proposed that aluminum diffuses into PtSi and forms an alloy, which lowers the electron barrier height of PtSi due to a change in the intrinsic PtSi workfunction. Additionally, we have integrated platinum germanosilicide with an ultra-low hole barrier height of 215 meV in P-FinFETs to provide a 21% enhancement in drive current performance, which is attributed to the 20% reduction in series resistance. We have also ascertained the compatibility of PtSiGe with laser thermal annealing for further performance enhancement.
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