Session 7A-2
Novel Epitaxial Nickel Aluminide-Silicide with Low�Schottky-Barrier
and Series Resistance
for Enhanced Performance of Dopant-Segregated�Source/Drain
N-channel MuGFETs
Abstract
| We have developed a novel
epitaxial nickel-aluminide silicide (NiSi2-xAlx) to reduce the Schottky-Barrier
height (SBH) and series resistance in n-channel MuGFETs with dopant-segregated
Schottky-Barrier source/drain (DSS). 10% substitutional incorporation
of Al in the Si matrix at the silicide-Si interface leads to a 37%
reduction in the intrinsic SBH of nickel silicide. A further 42% effective
reduction in the DSS SBH was attained with the combination of NiSi2-xAlx
and DSS technology. Saturation drive current enhancement of 94 % for
NiSi2-xAlx DSS MuGFETs over NiSi DSS MuGFETs was achieved, attributed
to SBH lowering, series resistance reduction and possibly silicide
strain effects. As a result, an excellent drive current of 882 micro-ampereA/micron
at VGS-VT =VDS = 1.2 V was achieved for NiSi2-xAlx DSS MuGFETs with
55 nm gate length. |