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Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN)

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Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN). / Sadeghi, Hatef; Ahmadi, M. T.; Ishak, B. I. et al.
In: Journal of Computational and Theoretical Nanoscience, Vol. 8, No. 10, 10.2011, p. 1993-1998.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Sadeghi, H, Ahmadi, MT, Ishak, BI, Mousavi, SM & Ismail, R 2011, 'Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN)', Journal of Computational and Theoretical Nanoscience, vol. 8, no. 10, pp. 1993-1998. https://doi.org/10.1166/jctn.2011.1915

APA

Sadeghi, H., Ahmadi, M. T., Ishak, B. I., Mousavi, S. M., & Ismail, R. (2011). Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN). Journal of Computational and Theoretical Nanoscience, 8(10), 1993-1998. https://doi.org/10.1166/jctn.2011.1915

Vancouver

Sadeghi H, Ahmadi MT, Ishak BI, Mousavi SM, Ismail R. Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN). Journal of Computational and Theoretical Nanoscience. 2011 Oct;8(10):1993-1998. doi: 10.1166/jctn.2011.1915

Author

Sadeghi, Hatef ; Ahmadi, M. T. ; Ishak, B. I. et al. / Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN). In: Journal of Computational and Theoretical Nanoscience. 2011 ; Vol. 8, No. 10. pp. 1993-1998.

Bibtex

@article{76d064866b3a4a23b3b66fdc8e22acc3,
title = "Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN)",
abstract = "Ballistic conductance of Bilayer Graphene Nanoribbons (BGNs) is concerned in this paper. Mathematical model and numerical solution of BGNs ballistic conductance is introduced as well as its analytical model in the degeneracy limit. Our method indicates that near the neutrality point the non-degenerate approximation can be properly used. In contrast, out of this boundary condition it is estimated to work in the degenerate regime. Moreover, it confirms that BGN conductance is temperature dependence near the neutrality point also minimum conductance is depended on temperature which increases by increasing temperature but beyond the neutrality point conductance is independent of temperature. Presented model shows good agreement by published experimental data.",
keywords = "Bilayer Graphene Nanoribbon (BGN), Electronic Properties, Ballistic Conductance, Degenerate, Non-Degenerate, ELECTRONIC-PROPERTIES, DEVICES, LIMITS, STATE, GATE",
author = "Hatef Sadeghi and Ahmadi, {M. T.} and Ishak, {B. I.} and Mousavi, {S. M.} and Razali Ismail",
year = "2011",
month = oct,
doi = "10.1166/jctn.2011.1915",
language = "English",
volume = "8",
pages = "1993--1998",
journal = "Journal of Computational and Theoretical Nanoscience",
issn = "1546-1955",
publisher = "American Scientific Publishers",
number = "10",

}

RIS

TY - JOUR

T1 - Ballistic conductance model of Bilayer Graphene Nanoribbon (BGN)

AU - Sadeghi, Hatef

AU - Ahmadi, M. T.

AU - Ishak, B. I.

AU - Mousavi, S. M.

AU - Ismail, Razali

PY - 2011/10

Y1 - 2011/10

N2 - Ballistic conductance of Bilayer Graphene Nanoribbons (BGNs) is concerned in this paper. Mathematical model and numerical solution of BGNs ballistic conductance is introduced as well as its analytical model in the degeneracy limit. Our method indicates that near the neutrality point the non-degenerate approximation can be properly used. In contrast, out of this boundary condition it is estimated to work in the degenerate regime. Moreover, it confirms that BGN conductance is temperature dependence near the neutrality point also minimum conductance is depended on temperature which increases by increasing temperature but beyond the neutrality point conductance is independent of temperature. Presented model shows good agreement by published experimental data.

AB - Ballistic conductance of Bilayer Graphene Nanoribbons (BGNs) is concerned in this paper. Mathematical model and numerical solution of BGNs ballistic conductance is introduced as well as its analytical model in the degeneracy limit. Our method indicates that near the neutrality point the non-degenerate approximation can be properly used. In contrast, out of this boundary condition it is estimated to work in the degenerate regime. Moreover, it confirms that BGN conductance is temperature dependence near the neutrality point also minimum conductance is depended on temperature which increases by increasing temperature but beyond the neutrality point conductance is independent of temperature. Presented model shows good agreement by published experimental data.

KW - Bilayer Graphene Nanoribbon (BGN)

KW - Electronic Properties

KW - Ballistic Conductance

KW - Degenerate

KW - Non-Degenerate

KW - ELECTRONIC-PROPERTIES

KW - DEVICES

KW - LIMITS

KW - STATE

KW - GATE

U2 - 10.1166/jctn.2011.1915

DO - 10.1166/jctn.2011.1915

M3 - Journal article

VL - 8

SP - 1993

EP - 1998

JO - Journal of Computational and Theoretical Nanoscience

JF - Journal of Computational and Theoretical Nanoscience

SN - 1546-1955

IS - 10

ER -