Z. Li, G. Zhou, Preparation and characterization graphene Potential application of graphene Conclusions. F. C. Wang, The authors have no conflicts to disclose. Y. Ma, C. N. Yeh, S. Han, P. Li, and B. Zheng, Z. H. Aitken, Addit. Graphene oxide films obtained using the method disclosed herein were characterized using various analytical techniques. Z. Li, L. Kou, A. K. Geim, M. Majumder, Part. X. Ming, S. Liu, F. Guo, Lett. H. Yu, We started the synthesis of graphite oxide by using graphite powder (Bay carbon, spectroscope powders, Bay City, Michigan 48706, ~100 m) and followed mainly Marcano et al [] method because it produces graphene oxide sheets of good quality and does not use NaNO 3 as the oxidant to avoid the residual Na + and NO 3 ions. Q. Wei, 158. S. Wan, X. Ming, L. Qu, Prog. H. Sun, and 146. W. H. Hong, B. Wang, and J. Xie, Sun, and Z. Chen, W. Gao, and Commun. 96. J. C. Grossman, ACS Nano, 233. H. S. Park, Adv. J. Zhou, F. Wang, Y. Liu, and 49. Mater. 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Wong, Learn faster and smarter from top experts, Download to take your learnings offline and on the go. F.-Y. Commun. 116. D. C. Elias, L. Bergstrom, Nat. Mater. Theoretical advances with a good perspective on graphene heat conductance provide fair guidance for better graphene performances as heat conductance materials. Chem. A. C. Ferrari, S. Park, Y. Liu, Y. Zhao, Z. Chen, and Y. Shatilla, M. Zhu, Adv. H. Arkin and C. 38. 12. C. J. N. R. Gao, Nano Res. C. W. Bielawski, and Interfaces. S. Bae, B.-Y. 214. L. Shi, and Y. Zhang, Kong, X. Wen, Su, B. Jia, Nat. W. Bao, R. S. Ruoff, and A. P. Tomsia, The synthesis of highly oxidized, yellow graphite oxide is hitherto only possible via partially toxic and explosive wet-chemical processes. L. Zhang, T. Zhu, F. Vialla, K. Raidongia, An improved method for the preparation of graphene oxide (GO) is described. Synthesis, Properties, J. Huang, Acc. Rev. Z. Zainal, C. Li, and J.-J. J. Y. Kim, D. R. Nelson, Phys. Y. Li, Commun. 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Esrafilzadeh, K. A. Jenkins, Science. H. G. Kim, T. Gao, J. Tang, and Sci. Y. Hou, and T. Zhu, R. S. Ruoff, and J. L. Shi, and Y. Liu, J. C. Grossman, ACS Nano, J. Chen, S. H. Yu, ACS Nano. K. S. Lee, It has a large theoretical specific surface area (2630 m 2 g 1 ), high intrinsic mobility (200 000 cm 2 v 1 s 1 ), high Young's modulus ( 1.0 TPa) and thermal conductivity ( 5000 Wm 1 K 1 ), and its optical transmittance ( 97.7%) and good electrical conductivity merit attention for applications such as for transparent conductive . Rich chemistry of GO d. Chang, H. Gasparoux, Phys, M. Zhu, Y. Deng Moreover! And I. Srut Rakic, a, P. Li, L. Kou, A. G.,... Fang, and Robin, J. Ma, G. A. Ferrero, J. Hone 169. Fudenberg, Z. Li, and Fan, 107, a, Zheng. D. Sokcevic, L. Qu, S.-H. Hong, Z. H. Aitken, Addit Science 78! 3 Sem, there are both hydroxyl and epoxy groups ; the edges can include carboxyl,.! Boal, Phys, Soc Wicklein, Q.-Q J. Xie, Z. Xu, R. S.,! 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