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5. Conclusion Discovery of the novel 2D material has revolutionized the nanoelectronics in- dustry by providing an alternative to silicon, which has been used for decades. This contribution has also expanded to bio-medicine, nanorobotics, and energy. However, the issue yet to be resolved is scaling up production of graphene with high quality and uniformity. This is the goal to overcome in the years to come. Conflicts of Interest The authors declare no conflicts of interest regarding the publication of this pa- per. References [1] Kroto, H.W., Heath, J.R., O’Brien, S.C., Curl, R.F. and Smalley, R.E. (1985) C60: Buckminsterfullerene. Nature, 318, 162-163. https://doi.org/10.1038/318162a0 [2] Iijima, S. (1991) Helical Microtubules of Graphitic Carbon. Nature, 354, 56-58. https://doi.org/10.1038/354056a0 [3] Sharon, M. and Sharon, M. (2015) Graphene: An Introduction to the Fundamentals and Industrial Applications. John Wiley & Sons, Inc., Hoboken. [4] Novoselov, K.S., et al. (2004) Electric Field in Atomically Thin Carbon Films. Science, 306, 666-669. https://doi.org/10.1126/science.1102896 [5] Das, S., Sudhagar, P., Kang, Y.S. and Choi, W. (2015) Synthesis and Characteriza- tion of Graphene. In: Lu, W., Baek, J. and Dai, L., Eds., Carbon Nanomaterials for Advanced Energy Systems, John Wiley & Sons, Inc., Hoboken, NJ, 85-131. https://doi.org/10.1002/9781118980989.ch3 [6] Choi, W. and Lee, J. (2012) Graphene: Synthesis and Applications. CRC Press, Boca Raton. [7] Zhu, Y., et al. (2010) Graphene and Graphene Oxide: Synthesis, Properties, and Ap- plications. Advanced Materials, 22, 3906-3924. [8] Bolotin, K.I., et al. (2008) Ultrahigh Electron Mobility in Suspended Graphene. Sol- id State Communications, 146, 351-355. https://doi.org/10.1016/j.ssc.2008.02.024 [9] Morozov, S.V., et al. (2008) Giant Intrinsic Carrier Mobilities in Graphene and Its Bilayer. Physical Review Letters, 100, Article ID: 016602. [10] Lee, C., Wei, X., Kysar, J.W. and Hone, J. (2008) Measurement of the Elastic Prop- erties and Intrinsic Strength of Monolayer Graphene. Science, 321, 385-388. https://doi.org/10.1126/science.1157996 [11] Balandin, A.A., et al. (2008) Superior Thermal Conductivity of Single-Layer Gra- phene. Nano Letters, 8, 902-907. https://doi.org/10.1021/nl0731872 [12] Moser, J., Barreiro, A. and Bachtold, A. (2007) Current-Induced Cleaning of Gra- phene. Applied Physics Letters, 91, Article ID: 163513. https://doi.org/10.1063/1.2789673 [13] Kozlov, S.M., Viñes, F. and Görling, A. (2011) Bandgap Engineering of Graphene by Physisorbed Adsorbates. Advanced Materials, 23, 2638-2643. https://doi.org/10.1002/adma.201100171 [14] Bunch, J.S., et al. (2008) Impermeable Atomic Membranes from Graphene Sheets. Nano Letters, 8, 2458-2462. A. Adetayo, D. Runsewe DOI: 10.4236/ojcm.2019.92012 223 Open Journal of Composite MaterialsPDF Image | Synthesis and Fabrication of Graphene and Graphene Oxide
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