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Bilayer graphene nanoribbon conductance model in parabolic band structure

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Bilayer graphene nanoribbon conductance model in parabolic band structure. / Mousavi, S. Mahdi; Ahmadi, Mohammad Taghi; Amin, N. Aziziah et al.
In: AIP Conference Proceedings, Vol. 1341, 25.05.2011, p. 388-390.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Mousavi, SM, Ahmadi, MT, Amin, NA, Johari, Z, Sadeghi, H, Anwar, S & Ismail, R 2011, 'Bilayer graphene nanoribbon conductance model in parabolic band structure', AIP Conference Proceedings, vol. 1341, pp. 388-390. https://doi.org/10.1063/1.3587025

APA

Mousavi, S. M., Ahmadi, M. T., Amin, N. A., Johari, Z., Sadeghi, H., Anwar, S., & Ismail, R. (2011). Bilayer graphene nanoribbon conductance model in parabolic band structure. AIP Conference Proceedings, 1341, 388-390. https://doi.org/10.1063/1.3587025

Vancouver

Mousavi SM, Ahmadi MT, Amin NA, Johari Z, Sadeghi H, Anwar S et al. Bilayer graphene nanoribbon conductance model in parabolic band structure. AIP Conference Proceedings. 2011 May 25;1341:388-390. doi: 10.1063/1.3587025

Author

Mousavi, S. Mahdi ; Ahmadi, Mohammad Taghi ; Amin, N. Aziziah et al. / Bilayer graphene nanoribbon conductance model in parabolic band structure. In: AIP Conference Proceedings. 2011 ; Vol. 1341. pp. 388-390.

Bibtex

@article{2538276786b64e95a6a9ad474df0a114,
title = "Bilayer graphene nanoribbon conductance model in parabolic band structure",
abstract = "Considering the importance of doing conductance studies, this manuscript describes the development of an analytical model for the conductance of bilayer GNR. Even though the experimental study of bilayer GNR conductivity has been conducted previously, the work described in this manuscript focuses on conductance. The work represents an improvement in the existing conductance model of bilayer GNR. In this manuscript, the conductance model is developed based on the Landauer formula which includes the correction for a smaller size device since bilayer GNR is considered as a one-dimensional device. Based on the work carried out by the authors of this manuscript, the bilayer GNR conductance has a minimum value at gate voltage, v(g) = 0.",
keywords = "Conductance, single layer graphene, bi layer graphene nanoribbon",
author = "Mousavi, {S. Mahdi} and Ahmadi, {Mohammad Taghi} and Amin, {N. Aziziah} and Zaharah Johari and Hatef Sadeghi and Sohail Anwar and Razali Ismail",
year = "2011",
month = may,
day = "25",
doi = "10.1063/1.3587025",
language = "English",
volume = "1341",
pages = "388--390",
journal = "AIP Conference Proceedings",
issn = "0094-243X",
publisher = "American Institute of Physics Publising LLC",
note = "International Conference on Enabling Science and Nanotechnology ; Conference date: 01-12-2010 Through 03-12-2010",

}

RIS

TY - JOUR

T1 - Bilayer graphene nanoribbon conductance model in parabolic band structure

AU - Mousavi, S. Mahdi

AU - Ahmadi, Mohammad Taghi

AU - Amin, N. Aziziah

AU - Johari, Zaharah

AU - Sadeghi, Hatef

AU - Anwar, Sohail

AU - Ismail, Razali

PY - 2011/5/25

Y1 - 2011/5/25

N2 - Considering the importance of doing conductance studies, this manuscript describes the development of an analytical model for the conductance of bilayer GNR. Even though the experimental study of bilayer GNR conductivity has been conducted previously, the work described in this manuscript focuses on conductance. The work represents an improvement in the existing conductance model of bilayer GNR. In this manuscript, the conductance model is developed based on the Landauer formula which includes the correction for a smaller size device since bilayer GNR is considered as a one-dimensional device. Based on the work carried out by the authors of this manuscript, the bilayer GNR conductance has a minimum value at gate voltage, v(g) = 0.

AB - Considering the importance of doing conductance studies, this manuscript describes the development of an analytical model for the conductance of bilayer GNR. Even though the experimental study of bilayer GNR conductivity has been conducted previously, the work described in this manuscript focuses on conductance. The work represents an improvement in the existing conductance model of bilayer GNR. In this manuscript, the conductance model is developed based on the Landauer formula which includes the correction for a smaller size device since bilayer GNR is considered as a one-dimensional device. Based on the work carried out by the authors of this manuscript, the bilayer GNR conductance has a minimum value at gate voltage, v(g) = 0.

KW - Conductance

KW - single layer graphene

KW - bi layer graphene nanoribbon

U2 - 10.1063/1.3587025

DO - 10.1063/1.3587025

M3 - Journal article

VL - 1341

SP - 388

EP - 390

JO - AIP Conference Proceedings

JF - AIP Conference Proceedings

SN - 0094-243X

T2 - International Conference on Enabling Science and Nanotechnology

Y2 - 1 December 2010 through 3 December 2010

ER -