Title :
Vertical Silicon-Nanowire Formation and Gate-All-Around MOSFET
Author :
Yang, B. ; Buddharaju, K.D. ; Teo, S.H.G. ; Singh, N. ; Lo, G.Q. ; Kwong, D.L.
Author_Institution :
Inst. of Microelectron., A*STAR, Singapore
fDate :
7/1/2008 12:00:00 AM
Abstract :
This letter presents a vertical gate-all-around silicon nanowire transistor on bulk silicon wafer utilizing fully CMOS compatible technology. High aspect ratio (up to 50: 1) vertical nanowires with diameter ~20 nm are achieved from lithography and dry-etch defined Si-pillars with subsequent oxidation. The surrounding gate length is controlled using etch back of the sacrificial oxide. N-MOS devices thus fabricated with gate length ~150 nm showed excellent transistor characteristics with large drive current (1.0 times 103 muA/mum), high Ion/Ioff ratio (~107), good subthreshold slope (~80 mV/dec) and low drain-induced barrier lowering (~10 mV/V). Along with good electrical characteristics, the use of low cost bulk wafers, and simple gate definition process steps could make this device a suitable candidate for next generation technology nodes.
Keywords :
MOSFET; lithography; nanowires; N-MOS devices; bulk silicon wafer; dry-etch defined Si-pillars; fully CMOS compatible technology; gate-all-around MOSFET; lithography; low cost bulk wafers; low drain-induced barrier lowering; sacrificial oxide; silicon nanowire transistor; subsequent oxidation; vertical silicon-nanowire formation; CMOS technology; Electric variables; Etching; Fabrication; Lithography; MOSFET circuits; Nanoscale devices; Oxidation; Silicon compounds; Transistors; CMOS technology; MOSFET; Si-nanowire; vertical;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2008.2000617
