Low-noise submicron channel graphene nanoribbons

Xu Guangyu; Bai Jingwei; Torres Carlos M.; Song Emil B.; Tang Jianshi; Zhou Yi; Duan Xiangfeng; Zhang Yuegang; Wang Kang L.

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Low-noise submicron channel graphene nanoribbons

机译：低噪声亚微米通道石墨烯纳米带

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We present a graphene nanoribbon fabrication method based on a nanowire mask. Using a four-probe setup, single-layer nanoribbon (SLR) and bilayer nanoribbon (BLR) show low-frequency noise levels lower than (comparable to) the SLRs (BLRs) achieved by hydrogen-silsesquioxane based methods. Submicron channel SLR and BLR both show conductance quantization at 77 K, which suggests that quasi-one-dimensional quantum transport can be achieved. The conductance plateaus in BLR are less pronounced than those in SLR.

机译：我们提出了一种基于纳米线掩模的石墨烯纳米带制造方法。使用四探针设置，单层纳米带（SLR）和双层纳米带（BLR）的低频噪声水平低于（与之相比）基于氢倍半硅氧烷的方法所获得的SLR（BLR）。亚微米通道SLR和BLR都显示了在77 K时的电导量化，这表明可以实现准一维量子传输。 BLR中的电导平稳期不如SLR中的电导平稳。

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来源
《Applied Physics Letters》 |2010年第7期|P.073107-073107-3|共3页
作者
Xu Guangyu; Bai Jingwei; Torres Carlos M.; Song Emil B.; Tang Jianshi; Zhou Yi; Duan Xiangfeng; Zhang Yuegang; Wang Kang L.;
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Department of Electrical Engineering, University of California at Los Angeles, Los Angeles, California 90095, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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入库时间 2022-08-17 13:16:15

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1. Low-noise submicron channel graphene nanoribbons [J] . Guangyu Xu Jingwei Bai Carlos M. Torres Jr Applied Physics Letters . 2010,第7期

机译：低噪声亚微米通道石墨烯纳米带
2. Low-noise submicron channel graphene nanoribbons [J] . Guangyu Xu, rnJingwei Bai, rnCarlos M. Torres Jr., Applied Physics Letters . 2010,第7期

机译：低噪声亚微米通道石墨烯纳米带
3. Energy Efficient Low-Noise Multichannel Neural Amplifier in Submicron CMOS Process [J] . Kmon P., Grybos P. Circuits and Systems I: Regular Papers, IEEE Transactions on . 2013,第7期

机译：亚微米CMOS工艺中的高能效低噪声多通道神经放大器
4. Simulation of quantum capacitance in graphene nanoribbons considering channel width variation [C] . Hassan Asif, Hossain Nazir, Shaikat Asif International Conference on Electrical Engineering and Information Communication Technology . 2014

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5. The Rational Design and Synthesis of Graphene Nanoribbons and Graphene Nanoribbon Functional Nanoarchitectures [D] . Durr, Rebecca Ann. 2017

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6. Short-channel field-effect transistors with 9-atom and 13-atom wide graphene nanoribbons [O] . Juan Pablo Llinas, Andrew Fairbrother, Gabriela Borin Barin, -1

机译：具有9原子和13原子宽的石墨烯纳米带的短通道场效应晶体管
7. Crossover from Room-temperature Double-channel Ballistic Transport to Single-channel Ballistic Transport in Zigzag Graphene Nanoribbons [O] . Chu, Zhao-Dong, He, Lin 2015

机译：从室温双通道弹道运输到交叉口的交叉 Zigzag石墨烯纳米带中的单通道弹道输运

Low-noise submicron channel graphene nanoribbons

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