Suppression of Ambipolar Conduction in Schottky Barrier Carbon Nanotube Field Effect Transistors:Modeling,Optimization Using Particle Swarm Intelligence,and Fabrication

P.Reena Monica; V.T.Sreedevi

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Suppression of Ambipolar Conduction in Schottky Barrier Carbon Nanotube Field Effect Transistors:Modeling,Optimization Using Particle Swarm Intelligence,and Fabrication

Suppression of Ambipolar Conduction in Schottky Barrier Carbon Nanotube Field Effect Transistors:Modeling,Optimization Using Particle Swarm Intelligence,and Fabrication

作者：

P.Reena Monica V.T.Sreedevi

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AMBIPOLAR

conduction

Carbon

NANOTUBES

high-κgate

oxide

SCHOTTKY

barrier

摘要：

A mathematical model and experimental analysis of the impact of oxide thickness on the ambipolar conduction in Schottky Barrier Carbon Nanotubes(CNTs)Field Effect Transistor(SB CNTFETs)is presented.Suppression of ambipolar conduction in SB CNTFETs is imperative in order to establish them as the future of IC technology.The ambipolar nature of SB CNTFETs leads to a great amount of leakage current.Employing a gate oxide dielectric of thickness,tox~50 nm suppresses the ambipolar behavior.In an SB CNTFET,it is the electric field at the source/drain contacts that control the conductance and the band bending length at the contacts is defined by tox.Therefore,tox is the prime parameter that influences the width of the Schottky barrier and the current in the subthreshold region.Due to the wide SB,there is a loss in on-current due to tunneling,but the current due to thermionic emission is increased by employing a high-κdielectric such as Zirconium dioxide(ZrO2).This work proposes an approach to suppress ambipolar behavior in SB CNTFETs without decreasing the on current.The thickness and dielectric constant of the gate oxide are optimized using the particle swarm optimization(PSO)algorithm to achieve suppression of ambipolar conduction without any loss in on-current.The proposed SB CNTFET was modeled using Verilog-A.Experimental demonstration of the suppression of ambipolar property is also presented.Two SB CNTFETs are fabricated using high-κdielectric such as ZrO2 with different thickness.A device with thin(~5 nm)gate oxide and another device with thick(~50 nm)gate oxide were fabricated.From the experimental results,it is observed that the device with the thin gate oxide exhibited ambipolar characteristics and the device with the thick gate oxide did not exhibit ambipolar characteristics.The increase in thickness,tox,ensures suppression of ambipolar behavior.

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工程与科学中的计算机建模（英文）2019 工程与科学中的计算机建模（英文）2018 工程与科学中的计算机建模（英文）2017 工程与科学中的计算机建模（英文）2016 工程与科学中的计算机建模（英文）2015

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篇名	Suppression of Ambipolar Conduction in Schottky Barrier Carbon Nanotube Field Effect Transistors:Modeling,Optimization Using Particle Swarm Intelligence,and Fabrication
来源期刊	工程与科学中的计算机建模(英文)	学科	工学
关键词	AMBIPOLAR conduction Carbon NANOTUBES high-κgate oxide SCHOTTKY barrier
年，卷（期）	2019,（6）	所属期刊栏目
研究方向		页码范围	577-591
页数	15页	分类号	TN3
字数		语种
DOI