Title :
Low Vt Ni-FUSI CMOS Technology using a DyO cap layer with either single or dual Ni-phases
Author :
Yu, H.Y. ; Chang, S.Z. ; Veloso, A. ; Lauwers, A. ; Adelmann, C. ; Onsia, B. ; Van Elshocht, S. ; Singanamalla, R. ; Demand, M. ; Vos, R. ; Kauerauf, T. ; Brus, S. ; Shi, X. ; Kubicek, S. ; Vrancken, C. ; Mitsuhashi, R. ; Lehnen, P. ; Kittl, J. ; Niwa, M.
Author_Institution :
IMEC, Leuven
Abstract :
This paper reports a novel approach to implement low Vt Ni-FUSI bulk CMOS by using a dysprosium oxide (DyO) cap layer on both HfSiON and SiON host dielectrics. We show for the first time that an ultra-thin DyO cap layer (5 Aring) can lower the NiSi FUSI nFET Vt by 300 mV/500 mV on HfSiON/SiON (resulting in a Vt,lin of 0.25 V/0.18 V respectively), w/o compromising the Tinv (<1 Aring variation), gate leakage, mobility or reliability. We observed that the DyO cap on SiON can convert into a DySiON silicate with similar electrical properties as HfSiON but much lower Vt, greatly-improved PBTI and 150times lower Jg wrt SiON. By demonstrating a novel DyO cap layer selective removal process, this work also points out the feasibility to realize low Vt CMOS using either dual phase (NiSi, Ni32Si12) or single phase (Ni2Si) FUSI gate for both n-and pFETs.
Keywords :
CMOS integrated circuits; dielectric materials; dysprosium compounds; field effect transistors; nickel; silicon compounds; DyO; FUSI CMOS Technology; HfSiON; SiON; cap layer; dysprosium oxide; gate leakage; host dielectrics; mobility; reliability; selective removal process; CMOS process; CMOS technology; Channel bank filters; Degradation; Dielectric devices; Electrodes; Etching; Fabrication; Gate leakage; Silicides;
Conference_Titel :
VLSI Technology, 2007 IEEE Symposium on
Conference_Location :
Kyoto
Print_ISBN :
978-4-900784-03-1
DOI :
10.1109/VLSIT.2007.4339710
