Title :
Selenium Co-implantation and segregation as a new contact technology for nanoscale SOI N-FETs featuring NiSi:C formed on silicon-carbon (Si:C) source/drain stressors
Author :
Wong, Hoong-Shing ; Liu, Fang-Yue ; Ang, Kah-Wee ; Shao-Ming Koh ; Koh, Shao-Ming ; Liow, Tsung-Yang ; Lee, Rinus Tek-Po ; Lim, Andy Eu-Jin ; Fang, Wei-Wei ; Zhu, Ming ; Chan, Lap ; Balasubramaniam, N. ; Samudra, Ganesh ; Yeo, Yee-Chia
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore
Abstract :
We report a novel contact technology comprising Selenium (Se) co-implantation and segregation to reduce Schottky barrier height PhiBn and contact resistance for n-FETs. Introducing Se at the silicide-semiconductor interface pins the Fermi level near the conduction band, and achieves a record low PhiBn of 0.1 eV on Si:C S/D stressors. Comparable sheet resistance and junction leakage are observed with and without Se segregation. When integrated in nanoscale SOI n-FETs with Ni-silicided Si:C S/D, the new Se-segregation contact technology achieves 36% reduction in total series resistance and 32% ION enhancement. Linear transconductance GMLin also shows large enhancement in the sample with Se-segregated contacts.
Keywords :
Schottky barriers; carbon; field effect transistors; ion implantation; nickel compounds; selenium; silicon compounds; silicon-on-insulator; Fermi level; JkJk:Jk,Se; NiSi:C-Si0.99C0.01; Schottky barrier height; contact technology; ion coimplantation; nanoscale SOI N-FET; silicide-semiconductor interface; source/drain stressors; CMOS technology; Contact resistance; Implants; Pins; Schottky barriers; Schottky diodes; Silicidation; Silicon; Temperature measurement; Transconductance;
Conference_Titel :
VLSI Technology, 2008 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4244-1802-2
Electronic_ISBN :
978-1-4244-1803-9
DOI :
10.1109/VLSIT.2008.4588605
