Semi Analytical Modeling of Quantum Capacitance of Graphene-Based Ion Sensitive Field Effect Transistor

被引：4

作者：

Abadi, Hediyeh Karimi F. ^{[1
,2
]}

Yusof, Rubiyah ^{[2
]}

Naghib, S. Danial ^{[3
]}

Ahmadi, Mohammad Taghi ^{[4
,5
]}

Rahmani, Meisam ^{[5
]}

Kiani, Mohammad Javad ^{[5
]}

Ghadiri, Mahdiar ^{[6
]}

机构：

[1] Univ Teknol Malaysia, Ctr Artificial Intelligence & Robot, Kuala Lumpur 54100, Malaysia

[2] Univ Teknol Malaysia, Malaysia Japan Int Ins Technol, Kuala Lumpur 54100, Malaysia

[3] Univ Teknol Malaysia, Fac Chem Engn, Skudai Johor 81310, Malaysia

[4] Univ Teknol Malaysia, Fac Elect Engn, Computat Nanoelect Res Grp, Johor Baharu 81310, Malaysia

[5] Urmia Univ, Nanotechnol Res Ctr, Dept Phys, Nanoelect Grp, Orumiyeh 57147, Iran

[6] IAU, Dept Comp Engn, Arak Branch, Arak, Iran

来源：

JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE | 2014年 / 11卷 / 03期

关键词：

Graphene; Ion Sensitive Field Effect Transistor; Quantum Capacitance;

D O I：

10.1166/jctn.2014.3400

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

Quantum capacitance as a one of the main characteristics of FET devices is in our focus in this paper. The quantum capacitance of graphene-based ion sensitive FET with an equivalent circuit is presented and also based on the analytical model a numerical solution is reported. The temperature effect on the quantum capacitance is highlighted, in which minimum capacitance dramatically rises by increasing the temperature. Furthermore, the capacitance model is adopted to derive current-voltage characteristic of the proposed device for different gate-source voltages. As the V-gs increases from 0.2 to 0.5 v, drain current (I-D) is also rising. To further confirm this viewpoint, the presented analytical model is compared with experimental data and acceptable agreement is reported.

引用

页码：596 / 600

页数：5

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