Title :
CMOS Inverter Based on Gate-All-Around Silicon-Nanowire MOSFETs Fabricated Using Top-Down Approach
Author :
Rustagi, S.C. ; Singh, N. ; Fang, W.W. ; Buddharaju, K.D. ; Omampuliyur, S.R. ; Teo, S.H.G. ; Tung, C.H. ; Lo, G.Q. ; Balasubramanian, N. ; Kwong, D.L.
Author_Institution :
Inst. of Microelectron., Singapore
Abstract :
This letter demonstrates, for the first time, the integration of gate-all-around (GAA) Si-nanowire transistors into CMOS inverters using top-down approach. With matching of the drive currents of n- and p-MOSFETs using different gate lengths to achieve symmetric pull-up and pull-down, sharp ON- OFF transitions with high voltage gains (e.g., DeltaV OUT/DeltaV IN up to ~ 40 for V DD = 1.2 V) are obtained. The inverter maintains its good transfer characteristics and noise margins for wide range of V DD tested down to 0.4 V. Individual transistors show excellent subthreshold characteristics and drive currents. The results are discussed in light of the circuit performances reported for other advanced nonclassical device architectures such as FinFETs. The integration potential of GAA Si-nanowire transistors to realize CMOS-circuit functionality is thus demonstrated.
Keywords :
CMOS integrated circuits; MOSFET; elemental semiconductors; invertors; nanowires; silicon; CMOS circuit functionality; CMOS inverter; GAA Si-nanowire transistors; ON- OFF transitions; Si; gate-all-around Si-nanowire transistors; gate-all-around silicon-nanowire MOSFET; n-MOSFET; p-MOSFET; top-down approach; voltage 1.2 V; Assembly; Atomic force microscopy; CMOS logic circuits; Circuit synthesis; Etching; Inverters; MOSFETs; Microelectronics; Transistors; Wires; CMOS-compatible; gate-all-around (GAA); inverter; nanowire; top-down;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.906622
