Laser Ablation of the Flexible Graphite: A New Way to Create a Graphene‐Based Flexible Substrate

Physica status solidi (A): Applied research Pub Date : 2023-07-02 DOI:10.1002/pssa.202300144

M. Jalili, H. Ghanbari, R. Malekfar, Reyhaneh Goodarzi

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Abstract

The morphological and structural changes of an ablated flexible graphite in air and acetone ablation environments are studied here. From field emission scanning electron microscopy images, vertically aligned graphene nanosheets are found on the surface of ablated target in acetone. Measured ablation depth values for the ablated target in water are generally higher than those for the ablated target in air. X‐ray diffraction analysis reveals that the (002) peak position and full‐width at half‐maximum of this peak in the ablated flexible graphite in the air increase. The gap between the highest occupied molecular orbitals and the lowest unoccupied molecular orbitals, i.e., the bandgap of the ablated target, indicating that the energy bandgap of the ablated target in two ablation media increased compared to the nonirradiated target. Raman analysis from different points of the surface of the ablated target in both ablation media demonstrates the presence of bulk defects on the ablated target in the air, instead the edge defects are found for the ablated target in acetone. From Raman spectra, there are no single‐layer graphene nanosheets pinned on the surface of the target in acetone.

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柔性石墨的激光烧蚀:一种制造石墨烯基柔性衬底的新方法

研究了烧蚀后柔性石墨在空气和丙酮烧蚀环境下的形态和结构变化。从场发射扫描电镜图像来看，在丙酮中烧蚀的靶材表面存在垂直排列的石墨烯纳米片。水中烧蚀目标的烧蚀深度测量值通常高于空气中烧蚀目标的烧蚀深度测量值。X射线衍射分析表明，在空气中烧蚀的柔性石墨中，(002)峰的位置和峰的半峰全宽度增加。最高已占据分子轨道与最低未占据分子轨道之间的间隙，即烧蚀靶的带隙，表明烧蚀靶在两种烧蚀介质中的能量带隙较未辐照靶增大。从两种烧蚀介质中烧蚀目标表面不同点的拉曼分析表明，空气中烧蚀目标表面存在大块缺陷，而在丙酮中烧蚀目标表面存在边缘缺陷。从拉曼光谱来看，丙酮靶表面没有固定单层石墨烯纳米片。

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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Physica status solidi (A): Applied research

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