Low-resistance bandgap-engineeredW/Si1-xGex/Si contacts |
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| Authors: | Yuen-Shung Chieh Krusius J.P. Green D. Ozturk M. |
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| Affiliation: | Sch. of Electr. Eng., Cornell Univ., Ithaca, NY ; |
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| Abstract: | ![]()
Bandgap-engineered W/Si1-xGex/Si junctions (p+ and n+) with ultra-low contact resistivity and low leakage have been fabricated and characterized. The junctions are formed via outdiffusion from a selectively deposited Si0.7Ge 0.3 layer which is implanted and annealed using RTA. The Si 1-xGex layer can then be selectively thinned using NH4OH/H2O2/H2O at 75°C with little change in characteristics or left as-deposited. Leakage currents were better than 1.6×10-9 A/cm2 (areal), 7.45×10-12 A/cm (peripheral) for p+/n and 3.5×10-10 A/cm2 (peripheral) for n+/p. W contacts were formed using selective LPCVD on Si1-xGex. A specific contact resistivity of better than 3.2×10-8 Ω cm2 for p +/n and 2.2×10-8 Ω cm2 for n+/p is demonstrated-an order of magnitude n+ better than current TiSi2 technology. W/Si1-xGe x/Si junctions show great potential for ULSI applications |
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