Graphene-Based Sensors for Monitoring Strain: A First-Principles Density Functional Theory Analysis

Int. J. Chemoinformatics Chem. Eng. Pub Date : 1900-01-01 DOI:10.4018/ijcce.2013010106
M. Mirnezhad, R. Ansari, H. Rouhi, M. Faghihnasiri
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引用次数: 5

Abstract

The application of graphene as a nanosensor in measuring strain through its band structure around the Fermi level is investigated in this paper. The mechanical properties of graphene as well as its electronic structure are determined by using the density functional theory calculations within the framework of generalized gradient approximation. In the case of electronic properties, the simulations are applied for symmetrical and asymmetrical strain distributions in elastic range; also the tight-binding approach is implemented to verify the results. It is indicated that the energy band gap does not change with the symmetrical strain distribution but depend on the asymmetric strain distribution, increasing strain leads to band gap opening around the Fermi level.
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基于石墨烯的应变监测传感器:第一性原理密度泛函理论分析
本文研究了石墨烯作为纳米传感器通过其在费米能级附近的能带结构测量应变的应用。在广义梯度近似的框架下,利用密度泛函理论计算确定了石墨烯的力学性能及其电子结构。在电子特性方面,分别对弹性范围内的对称和非对称应变分布进行了模拟;并采用紧绑定方法对结果进行验证。结果表明,能量带隙不随对称应变分布而变化,而是依赖于非对称应变分布,应变增大导致带隙在费米能级附近打开。
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Int. J. Chemoinformatics Chem. Eng.
Int. J. Chemoinformatics Chem. Eng.
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