Towards simple methods for mass production of suspended graphene

2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2012-08-01 DOI:10.1109/3M-NANO.2012.6472978

H. Al-Mumen, F. Rao, Lixin Dong, Wen Li

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Abstract

This paper reports simple fabrication approaches that can be used to generate a suspended graphene sheet with the desired thickness, while eliminating the need for a crytical point dryer. Two methods have been developed to achieve a large suspended area of graphenes. In the first approach, SF6 plasma was used to make holes or channels with specific dimensions. Then micromechanical exfoliation was applied to deposit the graphene sheet suspended over these channels or holes. In the second method, we used SF6 plasma to make suspended graphenes by undercutting planar graphenes. To tune the number of graphene layers, thick graphene samples was etched layer by layer until the desired thickness was obtained. Additionally, the effect of using various plasmas etching (SF6 or O2) on the layer-by-layer graphene removal has been studied. Raman spectra of plasma-treated graphenes have shown higher amount of defects in case of SF6, specially for thin graphene sheet. However, these surface defects could be recovered by annealing the samples in an argon environment at about 1000 °C.

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迈向大规模生产悬浮石墨烯的简单方法

本文报道了一种简单的制造方法，可以用来产生具有所需厚度的悬浮石墨烯片，同时消除了对临界点干燥器的需要。已经开发了两种方法来实现石墨烯的大悬浮面积。在第一种方法中，SF6等离子体被用来制造具有特定尺寸的孔或通道。然后应用微机械剥离沉积悬浮在这些通道或孔上的石墨烯片。第二种方法是利用SF6等离子体对平面石墨烯进行下切制备悬浮石墨烯。为了调整石墨烯层数，一层一层地蚀刻厚的石墨烯样品，直到获得所需的厚度。此外，还研究了不同等离子体蚀刻(SF6或O2)对石墨烯逐层去除的影响。等离子体处理的石墨烯的拉曼光谱显示SF6的缺陷量较高，特别是对于薄石墨烯片。然而，这些表面缺陷可以通过在1000°C左右的氩气环境中退火来恢复。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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