CARBON NANO TUBE FIELD EFFECT TRANSISTOR:A REVIEW

Carbon Nano Tube Field Effect Transistor (CNTFET) has various extraordinary electrical and mechanical properties and due to this CNTFET is turning out to be the forefront material for future electronics. In this paper, the review of CNTFETs is presented. MOSFET technology has limited scope  for further enhancement. With a motivation to find alternatives, we explore the domain of CNTFETs. The structure, operation and the various performance parameters have been discussed. The effect of threshold voltage, temperature, channel length,delay and power consumption for both CNTFETs and MOSFET devices have been discussed. Previous studies show that CNTFETs are far bett

Carbon Nano Tube Field Effect Transistor (CNTFET) has various extraordinary electrical and mechanical properties and due to this CNTFET is turning out to be the forefront material for future electronics. In this paper, the review of CNTFETs is presented. MOSFET technology has limited scope  for further enhancement. With a motivation to find alternatives, we explore the domain of CNTFETs. The structure, operation and the various performance parameters have been discussed. The effect of threshold voltage, temperature, channel length,delay and power consumption for both CNTFETs and MOSFET devices have been discussed. Previous studies show that CNTFETs are far better than  MOSFET device. It is propsed as an alternative to MOSFET because of its promising features. However, challenges faced by CNTFETs have been discussed.

Carbon Nano Tube Field Effect Transistor (CNTFET) has various extraordinary electrical and mechanical properties and due to this CNTFET is turning out to be the forefront material for future electronics. In this paper, the review of CNTFETs is presented. MOSFET technology has limited scope  for further enhancement. With a motivation to find alternatives, we explore the domain of CNTFETs. The structure, operation and the various performance parameters have been discussed. The effect of threshold voltage, temperature, channel length,delay and power consumption for both CNTFETs and MOSFET devices have been discussed. Previous studies show that CNTFETs are far better than  MOSFET device. It is propsed as an alternative to MOSFET because of its promising features. However, challenges faced by CNTFETs have been discussed.Carbon Nano Tube Field Effect Transistor (CNTFET) has various extraordinary electrical and mechanical properties and due to this CNTFET is turning out to be the forefront material for future electronics. In this paper, the review of CNTFETs is presented. MOSFET technology has limited scope  for further enhancement. With a motivation to find alternatives, we explore the domain of CNTFETs. The structure, operation and the various performance parameters have been discussed. The effect of threshold voltage, temperature, channel length,delay and power consumption for both CNTFETs and MOSFET devices have been discussed. Previous studies show that CNTFETs are far better than  MOSFET device. It is propsed as an alternative to MOSFET because of its promising features. However, challenges faced by CNTFETs have been discussed.

er than  MOSFET device. It is propsed as an alternative to MOSFET because of its promising features. However, challenges faced by CNTFETs have been discussed.