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Long Channel Carbon Nanotube as an Alternative to Nanoscale Silicon Channels in Scaled MOSFETs

机译：长通道碳纳米管作为缩放MOSFET中的纳米级硅通道的替代方案

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Long channel carbon nanotube transistor (CNT) can be used to overcome the high electric field effects in nanoscale length silicon channel. When maximum electric field is reduced, the gate of a field-effect transistor (FET) is able to gain control of the channel at varying drain bias. The device performance of a zigzag CNTFET with the same unit area as a nanoscale silicon metal-oxide semiconductor field-effect transistor (MOSFET) channel is assessed qualitatively. The drain characteristic of CNTFET and MOSFET device models as well as fabricated CNTFET device are explored over a wide range of drain and gate biases. The results obtained show that long channel nanotubes can significantly reduce the drain-induced barrier lowering (DIBL) effects in silicon MOSFET while sustaining the same unit area at higher current density.

机译：长通道碳纳米管晶体管（CNT）可用于克服纳米级长度硅通道中的高电场效应。当最大电场减小时，场效应晶体管（FET）的栅极能够以不同的漏极偏压获得对沟道的控制。具有与纳米级硅金属氧化物半导体场效应晶体管（MOSFET）通道相同的单位区域的Zigzag CNTFET的装置性能被定性地评估。 CNTFET和MOSFET器件模型以及制造的CNTFET器件的漏极特性在广泛的漏极和栅极偏置方面探讨。获得的结果表明，长通道纳米管可以显着降低硅MOSFET中的漏极感应的屏障降低（DIBL）效应，同时在更高电流密度处维持相同的单元面积。

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Michael Loong Peng Tan;
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年度 2013
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正文语种 eng
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1. Long Channel Carbon Nanotube as an Alternative to Nanoscale Silicon Channels in Scaled MOSFETs [J] . Michael Loong PengTan Journal of nanomaterials . 2013,第1期

机译：长通道碳纳米管可替代规模化MOSFET中的纳米硅通道
2. Long Channel Carbon Nanotube as an Alternative to Nanoscale Silicon Channels in Scaled MOSFETs [J] . Michael Loong PengTan Journal of nanomaterials . 2013,第1期

机译：长通道碳纳米管可替代规模化MOSFET中的纳米硅通道
3. Suppression of oxidation-enhanced boron diffusion in silicon by carbon implantation and characterization of MOSFETs with carbon-implanted channels [J] . Ban I., Ozturk M.C. IEEE Transactions on Electron Devices . 1997,第9期

机译：通过碳注入来抑制硅中氧化增强的硼扩散，并通过碳注入沟道对MOSFET进行表征
4. Modeling the enhancement of nanoscale MOSFETs by embedding carbon nanotubes in the channel [C] . Akturk, A., Pennington, . 2003

机译：通过将碳纳米管嵌入通道中来模拟纳米级MOSFET的增强
5. A study on the optimization of the recessed silicon germanium junction parameters of p-channel MOSFETs with channels under uniaxial compressive strain. [D] . Chopra, Saurabh. 2007

机译：单通道压缩应变下具有沟道的p沟道MOSFET的凹陷硅锗结参数优化研究。
6. Sensing and Reliability Improvement of Electrostatic-Discharge Transient by Discrete Engineering for High-Voltage 60-V n-Channel Lateral-Diffused MOSFETs with Embedded Silicon-Controlled Rectifiers [O] . Shen-Li Chen, Yi-Cih Wu 2018

机译：分立工程用于嵌入式硅控整流器的高压60V n沟道横向扩散MOSFET的瞬态传感和可靠性改善。
7. An Analytical Model for the Threshold Voltage of Short-Channel Double-Material-Gate (DMG) MOSFETs with a Strained-Silicon (s-Si) Channel on Silicon-Germanium (SiGe) Substrates [O] . Bhushan Shiv 2013

机译：硅锗（SiGe）衬底上带有应变硅（s-Si）沟道的短沟道双材料栅极（DMG）MOSFET阈值电压的分析模型

Long Channel Carbon Nanotube as an Alternative to Nanoscale Silicon Channels in Scaled MOSFETs

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