Abstract
In this work we demonstrate the benefit of high uniaxial tensile strain on the performances of Si nanowire (NW) MOSFETs. High uniaxial tensile strained Si NWs were realized by exploiting a “bridge technology” based on patterning of an initial biaxial tensile strained Si on insulator (sSOI) into thin NWs with large pads. Strain relaxation on the large pads amplifiers the strain in the NWs. Strained Si NW-arrays along 〈110〉/(100) direction with tensile strain values up to 2.2% were achieved. We have fabricated n-type Si NW-array MOSFETs with HfO2/TiN gate stack and NiSi2 source/drain contacts. An increase of Ion current by a factor of 1.35 was observed then the uniaxial strain was increased from 1.3% to 1.8% in NW MOSFETs. The enhanced device performance is primarily attributed to a higher electron mobility in the highly strained Si NWs.
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