Nickel-silicide process for ultra-thin-body SOI-MOSFETs

Authors :: Schmidt, M.
Mollenhauer, T.
Gottlob, H. D. B.
Wahlbrink, T.
Efavi, J. K.
Ottaviano, L.
Cristoloveanu, S.
Lemme, Max C.
Kurz, H.
Schmidt, M.
Mollenhauer, T.
Gottlob, H. D. B.
Wahlbrink, T.
Efavi, J. K.
Ottaviano, L.
Cristoloveanu, S.
Lemme, Max C.
Kurz, H.
Publication Year :: 2005
Abstract: A self-aligned nickel-silicide process to reduce parasitic source and drain resistances in ultra-thin-body silicon-on-insulator (UTB-SOI)-MOSFETs is investigated. An optimized nickel-silicide process sequence including nickel sputter deposition, rapid thermal diffusion and compatible silicon nitride (Si3N4) spacers is demonstrated in UTB-SOI n-MOSFETs. Transistor on-currents and source/drain-resistivity are extracted from output and transfer characteristics and compared for various device layer thicknesses from 80 nm down to 15 nm. On-currents are improved up to a factor of 100 for the thinnest transistors by the introduction of self-aligned NiSi. Front and back gate interface qualities are extracted to evaluate their potential impact on mobility and on-currents specifically for ultra-thin devices.<br />QC 20120227