Analysis and modeling of quantum capacitance on graphene single electron transistor-Reference-Cited by-同舟云学术

Analysis and modeling of quantum capacitance on graphene single electron transistor

Published:2018-08-20 Issue:22 Volume:32 Page:1850235
ISSN:0217-9792
Container-title:International Journal of Modern Physics B
language:en
Short-container-title:Int. J. Mod. Phys. B

Author:

Hosseini Vahideh Khadem¹,Dideban Daryoosh¹²,Ahmadi Mohammad Taghi³⁴⁵,Ismail Razali⁵

Affiliation:

1. Institute of Nanoscience and Nanotechnology, University of Kashan, Kashan, Iran

2. Department of Electrical and Computer Engineering, University of Kashan, Kashan, Iran

3. Department of Electrical Engineering, Pardis of Urmia University, Urmia, Iran

4. Nanotechnology Research Center, Nano Electronic Research Group, Physics Department, Urmia University, Urmia, Iran

5. Faculty of Electrical Engineering, Universiti Teknologi Malaysia, Johor Bahru, Johor 81310, Malaysia

Abstract

Graphene single electron transistor (SET) as a coulomb blockade (CB) device operates based on the quantum mechanical effect. Its desired current is achieved by overcoming the CB energy that depends on the total capacitance of SET. Therefore, small size of graphene quantum capacitance is suitable for SET structure because it plays a dominant role in the total capacitance. In this paper, the density of state (DOS) model of graphene SET is suggested because of its important effect on many physical properties. Furthermore, carrier concentration as a key factor in quantum capacitance is modeled. Finally, the quantum capacitance of graphene SET based on the fundamental parameters is modeled and compared to the experimental data, so an acceptable agreement between them is reported. As a result, silicon SET can be replaced with graphene SET because of its lower quantum capacitance and also higher operation speed than the silicon one.

Publisher

World Scientific Pub Co Pte Lt

Subject

Condensed Matter Physics,Statistical and Nonlinear Physics

Link

https://www.worldscientific.com/doi/pdf/10.1142/S0217979218502351

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