Abstract
This work represents a state-of-the-art technique developed for the preparation of graphene from graphite–metal electrodes by the arc-discharge method carried out in a continuous flow of water. Because of continuous arcing of graphite-metal electrodes, the graphene sheets were observed in water with uniformity and little damage. These nanosheets were subjected to various purification steps such as acid treatment, oxidation, water washing, centrifugation, and drying. The pure graphene sheets were analyzed using Raman spectrophotometry, x-ray diffraction (XRD), field emission-scanning electron microscopy (FE-SEM), and tunneling electron microscopy (TEM). Peaks of Raman spectra were recorded at (1300–1400 cm−1) and (1500–1600 cm−1) for weak D-band and strong G-band, respectively. The XRD pattern showed 85.6% crystallinity of pure graphite, whereas pure graphene was 66.4% crystalline. TEM and FE-SEM micrographs revealed that graphene sheets were overlapped to each other and layer-by-layer formation was also observed. Beside this research work, we also reviewed recent developments of graphene and related nanomaterials along with their preparations, properties, functionalizations, and potential applications.
Highlights
This paper endeavors to sum up state-of-the-art techniques and the current status on graphene and their derivatives which have been predominated in the field of functionalized graphene
Graphene has been proven as advanced functional material that can be used in many potential applications
A considerable cost-effective yield of graphene sheets and carbon nanostructured materials can be obtained by facile, cheapest, simple, and continuous arc-discharge under the flow of water
Summary
Nanotechnology has been blossoming for more than two decades as its importance increases.[1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18] Nowadays, graphene emerges as a rising star and new paradigm of relativistic condensed-matter physics and material science. The discovery of graphene is an important addition as a world’s thinnest material. Its derivatives play a significant key role in modern scientific life.[19] The fundamental breakthroughs toward the physical understanding of graphene and graphite were routed in the 1940s and 1950s.20,21.
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