An Overview of the Electronic Structure of Monolayer Graphene

Allahyar Anosh, Sayed Anwar Sirat
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Abstract

Monolayer graphene is a nanostructured material that consists of layers of graphene, each layer of single-layer graphene consists of a layer of carbon atoms that are interconnected in a hexagonal lattice. The crystal structure of monolayer graphene is two dimensional and carbon atoms are inserted in a hexagonal lattice. The band structure of monolayer graphene includes two main bands that located at points K and K’ considered as quantum bands of electrons and holes. The electronic properties of monolayer graphene include the movement of electrons at very high speed and maintaining their spin. Also, monolayer graphene has unique optical properties and can be used as an optical switcher in electronic devices. Which from the basis of the contemporary technology of graphene and is progressing, therefor, research in this field is important and this research was carried out in a library method and its purpose is to investigate the electronic structure of single – layer graphene.
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单层石墨烯电子结构概述
单层石墨烯是一种由多层石墨烯组成的纳米结构材料,每一层单层石墨烯都由一层碳原子组成,这些碳原子以六边形晶格相互连接。单层石墨烯的晶体结构是二维的,碳原子被插入六方格中。单层石墨烯的能带结构包括两个主要能带,分别位于 K 点和 K'点,被视为电子和空穴的量子能带。单层石墨烯的电子特性包括电子高速运动并保持自旋。此外,单层石墨烯还具有独特的光学特性,可在电子设备中用作光开关。单层石墨烯是当代石墨烯技术的基础,并且正在不断进步,因此,该领域的研究非常重要,本研究采用图书馆方法进行,目的是研究单层石墨烯的电子结构。
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