Effect of pore-size disorder on the electronic properties of semiconducting graphene nanomeshes

石墨烯 材料科学 带隙 晶体管 晶格常数 纳米技术 钝化 化学物理 凝聚态物理 光电子学 图层(电子) 化学 光学 物理 量子力学 电压 衍射
作者
Sarah Gamal,Mohamed M. Fadlallah,L.M. Salah,Ahmed A. Maarouf
出处
期刊:Nanotechnology [IOP Publishing]
卷期号:31 (48): 485710-485710 被引量:2
标识
DOI:10.1088/1361-6528/abb04d
摘要

Graphene nanomeshes (GNMs) are novel materials that recently raised a lot of interest.They are fabricated by forming a lattice of pores in graphene.Depending on the pore size and pore lattice constant, GNMs can be either semimetallic or semiconducting with a gap large enough (∼ 0.5 eV) to be considered for transistor applications.The fabrication process is bound to produce some structural disorder due to variations in pore sizes.Recent electronic transport measurements in GNM devices (ACS Appl.Mater.Interfaces 10, 10362, 2018) show a degradation of their bandgap in devices having pore-size disorder.It is therefore important to understand the effect of such variability on the electronic properties of semiconducting GNMs.In this work we use the density functional-based tight binding formalism to calculate the electronic properties of GNM structures with different pore sizes, pore densities, and with hydrogen and oxygen pore edge passivations.We find that structural disorder reduces the electronic gap and the carrier group velocity, which may interpret recent transport measurements in GNM devices.Furthermore the trend of the bandgap with structural disorder is not significantly affected by the change in pore edge passivation.Our results show that even with structural disorder, GNMs are still attractive from a transistor device perspective.
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