Mechanical exfoliation of graphite to graphene in polyvinylpyrrolidone aqueous solution

L. Myroniuk, D. Myroniuk, E. Maistruk, S. Kuryshchuk, A. Ievtushenko, I. M. Danylenko, V. Strelchuk, I. Koziarskyi
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Abstract

In presented work we have reported that polyvinylpyrrolidone (PVP) is suitable organic solvent for mechanical exfoliation of crystalline graphite to graphene in aqueous solution through kitchen blender technique. Morphological, structural and optical, properties of graphene samples were characterized by scanning electron microscopy, Raman scattering and UV-Visible spectroscopy. Scanning electron microscopy demonstrates folded morphology of graphene flakes with ~4 nm thickness. Raman scattering was revealed the high-quality graphene with low levels of defects after the exfoliation process of graphite/PVP dispersions. The G band at ~1582 cm−1 on Raman spectra is related with stretching vibrations of carbon atoms. The broadening of the G band is not observed, that indicated on absence of the basal plane defects in the graphene structure, which can be introduced during exfoliation by the kitchen blender. The ratio of the intensity of 2D and G bands equal to 1.66 (I2D/IG>1) and the value of 2D band full width at half maximum is 79.88 cm–1, indicated a few-layer graphene (FLG) structure. The defects quantity identified by the intensity ratio of the D and G bands, ID/IG is 0.18, significantly lower than that reported for graphene oxide with basal plane defects (> 1) and for sonication dispersed graphene (~ 0.6). The graphene dispersions were characterized by UV–Vis spectroscopy, minimum transmittance observed at around 270 nm is attributed to the π→π* transitions of aromatic C–C bonds in graphene. The optical transmittance minimum and the overall high transmittance decreasing values observed between 270 and 800 nm strongly suggest the presence of two-dimensional material in the dispersion, thus confirming the successful exfoliation of graphite to graphene by blending. We demonstrate the simple and nontoxic method to product high-quality FLG sheets, free from defects, using a kitchen blender and eco-friendly polyvinylpyrrolidone as an organic exfoliant.
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石墨在聚乙烯吡咯烷酮水溶液中机械剥落成石墨烯
在本研究中,我们报道了聚乙烯吡咯烷酮(PVP)是一种合适的有机溶剂,用于通过厨房搅拌机技术将水溶液中的结晶石墨机械剥离成石墨烯。利用扫描电镜、拉曼散射和紫外可见光谱对石墨烯样品的形貌、结构和光学性质进行了表征。扫描电镜显示厚度约4 nm的石墨烯薄片的折叠形态。通过对石墨/PVP分散体的剥离处理,得到了具有低缺陷的高质量石墨烯。拉曼光谱上~1582 cm−1的G波段与碳原子的伸缩振动有关。没有观察到G带的展宽,这表明石墨烯结构中没有基面缺陷,这可能是在厨房搅拌机剥离过程中引入的。2D带强度与G带强度之比为1.66 (I2D/IG>1), 2D带半最大全宽值为79.88 cm-1,表明其为少层石墨烯结构。通过D和G波段强度比识别的缺陷数量ID/IG为0.18,显著低于基面缺陷的氧化石墨烯(> 1)和超声分散石墨烯(~ 0.6)。用紫外可见光谱对石墨烯分散体进行了表征,在270 nm附近观察到的最小透过率归因于石墨烯中芳香族C-C键的π→π*跃迁。在270 ~ 800 nm之间观察到的光学透过率最小值和整体高透过率下降值强烈表明在色散中存在二维材料,从而证实了石墨通过混合成功地剥离为石墨烯。我们演示了一种简单无毒的方法,使用厨房搅拌器和环保的聚乙烯吡咯烷酮作为有机去角质剂来生产高质量的FLG片材,没有缺陷。
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