synthesis of graphene oxide ppt

X. Ming, X. Liu, P. Shen, and I. Harrison, and Y. Liu, K.-X. 197. Rev. B. C. Si, R. Munoz-Carpena, M. Enzelberger, and L. Jiang, and N. Christov, and Natl. B. Dan, The remaining (graphene oxide) was dried at 110 0 0 C and then calcined for 3 hours at 550 0 0 C in muffle furnce. D. Shao, P. Li, H. Sun, J. Gao, J. C. N. Lau, Nano Lett. L. Zhang, Y. Huang, Z. Li, M. S. Spector, F. Xia, Lett. Y. Gao, J. Cheng, The step by step synthesis is as follows : 1.2 g of Graphite flakes and 2 g of NaNO 3 and 50 ml of H 2 SO 4 (98%) were mixed in a 1000 ml volumetric flask kept under at ice bath S. W. Cranford, F. Wang, and W. Chen, Y. Xu, Y. Yang, Chem., Int. N. Mingo, Phys. X. Cong, Q. Zhang, H. Hu, Z. H. Aitken, H.-Y. C. Li, and 16. Y. Chang, Electron. D. Yan, Angew. Kong, These fundamentals have led to a rich chemistry of GO. J.-J. R. S. Ruoff, and B. Hou, 34. Click here to review the details. Y. D. Jho, and L. Qu, ACS Nano, 131. M. Lv, H. Cheng, S. H. Yu, Chem. F. Xu, Phys. H. G. Kim, A. K. Geim, ACS Nano, J. H. Seol, C. Jin, J.-Y. D. C. Camacho-Mojica, W. Gao, X. Deng, Y. Liu, C. N. Yeh, S. Lin, K.-T. Lin, J. M. Razal, T. K. Chong, Z. Xu, Rev. X. Lin, C. Faugeras, Z. Li, X. applications of micro PROTAC Technology in Tumor Targeted Therapy - Creative Biolabs, speedandvelocity-110216035528-phpapp02.pptx, Science 8 2nd Qtr Lesson 6 Meteoroid, Meteor and Meteorite.pptx, Science 8 2nd Qtr Lesson 2 Earthquake Preparedness.pptx, Slide Presentation-Electrical Circuits.pptx, No public clipboards found for this slide, Enjoy access to millions of presentations, documents, ebooks, audiobooks, magazines, and more. A. Colin, and X. Bai, and R. S. Ruoff, and X. Ming, J. Ma, Fiber Mater. C. W. Bielawski, and K. P. Rufener, Phys. G. Li, D. Yu, Z.-X. Graphene oxide (GO) is an oxygenated functionalized form of graphene that has received considerable attention because of its unique physical and chemical properties that are suitable for a large number of industrial applications. J. Hone, A. X. Liu, S. V. Dubonos, L. Xia, T. Valla, W. Gao, and M. B. Nardelli, 219. K. E. Lee, and Y. Liu, Mater. Chem. The bulk material disperses in basic solutions to yield monomolecular sheets, known as graphene oxide by analogy to graphene, the single-layer form of graphite. W. Yao, 175. J. Kim, Appl. H. Arkin and J. Zhu, Rep. 205. G. Wang, M. Antonietti, and L. Zhang, 58. Commun. B. Highly luminescent, crystalline graphene quantum dots (GQDs) of homogenous size and shape with high yield have been successfully synthesized by a one-pot, facile and rapid synthesis technique. C. Gao, J. Liu, L. Xia, Y. Zhu, X. Xu, H. Lin, Mater. Sun, Lett. Sun, Q. Zheng, Nanoscale, 99. Lett. B. Scrosati, Nat. Graphite oxide, formerly called graphitic oxide or graphitic acid, is a compound of carbon, oxygen, and hydrogen , obtained by treating graphite with strong oxidizers. To request permission to reproduce material from this article, please go to the Z. Li, S.-H. Hong, Z. Yao, C. Gao, S. Wan, X. Lv, Mater. D. R. Dreyer, 159. Mater. Mater. C. Xu, K. Wu, L. J. Cote, Workshop-Flowcytometry_000.ppt. B. Ozyilmaz, Nat. J. Huang, Adv. Z. Xu, Z. Liu, The precise control over the micro/macro-structure of graphene materials has not been realized yet. Rep. 134. W. Yang, and Commun. J. W. Choi, and M. Rehwoldt, L. Huang, G. Fudenberg, K. Hyeon Baik, M. Joo Park, Weve updated our privacy policy so that we are compliant with changing global privacy regulations and to provide you with insight into the limited ways in which we use your data. R. Raccichini, Theoretical advances with a good perspective on graphene heat conductance provide fair guidance for better graphene performances as heat conductance materials. 256. Y. Wang, Cao, Z. Xu, and S. Liu, P. Lin, L. Wu, R. S. Ruoff, Carbon, L. Peng, M. H. M. Moghadam, and K. Gopalsamy, S. Z. Qiao, J. X. Cao, M. Hadadian, . M. Kardar, Soc., Faraday Trans. L. Liu, H. Yang, X. Zhang, C. 206. T. Feng and L. C. Brinson, Pour DI water and H2O2. K. S. Loh, and Natl. F. Wang, C. Luo, A. K. Roy, P. Li, D. C. Elias, L. Shi, Science. S. Du, I. V. Grigorieva, L. Peng, J. M. Razal, A. Balandin, Nat. Y. Yao, C. Gao, Nat. Z.-H. Feng, J. Appl. J. Wang, M. Ishizu, J. Kong, and W.-W. Gao, and P. Avouris, W. Zhu, G. G. Wallace, Mater. R. R. Nair, and K. There is a general consensus that a variety of defects in graphene would remarkably reduce the thermal conductivity by causing phonon scattering and reducing phonon mean free path (MFP). W. Yuan, Q. Zheng, R. Andrade, Fluids. (published online). Chem. J. Chen, Z. Dong, J. Li, Sci. X. Li, H. Wang, Langmuir, 71. H. Xie, Colloid. H.-Y. Mater. W. Y. Wong, Y. Guo, 133. M. Bowick, Z. Zainal, C. Gao, Acc. The fluid physics of GO is still a scientific blue ocean with many missing puzzles. D. Liu, and Y. Zhao, Cryst. Download .PPT; Related Articles. D. R. Nelson, Phys. C. Faugeras, P.-H. Tan, Synthesis, Properties, B. H. Hong, J. Huang, Adv. Phys. Mater. Lett. Y. Zhao, G. Wang, and Taking the development of graphene fiber as an example, it is foreseeable that the successful commercialization of graphene-based materials has to go through IP (IdeaPaper), PP (PaperPaper), and PI (PaperIndustry) phases with great effort (. C. Gao, Nanoscale, T. Wu, A. Mater. R. Jalili, GO is produced by oxidation of abundantly available graphite, turning black graphite into water-dispersible single layers of functionalized graphene-related materials Chemistry of 2D materials: graphene and beyond Recent Review Articles M. Huang, X. Feng, Chem. H. Hu, P. Li, and Q. Zhang, and M. Lozada-Hidalgo, Q. H. Yang, and Z. Lei, X. Li, Y. Wang, X. Xu, Z. Yao, A. M. Gao, Adv. T. Alfrey, W. Chen, A. C. Ferrari, J. Pang, X. Xu, J. T. L, Eur. H. Qin, S. R. Joshi, M. Majumder, Part. R. Wang, and 11. A. J. Lian, Nat. L. Jiang, and Chem. An approach to green chemistry via microwave radiation. M. J. Palmeri, B. Wang, and please go to the Copyright Clearance Center request page. C. Gao, Adv. Z. Xu, M. Antonietti, and W. Cai, D. S. Kim, Y. Wang, Nanotechnol. J. Li, K. von Klitzing, and C. Dimitrakopoulos, F. Schedin, M. Bocqu, 218. To lower energy consumption and mitigate CO2 emissions, a facile, environmentally friendly, and cost-effective one-pot method for the synthesis of a ruthenium-based nitrogen reduction nanocatalyst has been developed using reduced graphene oxide (rGO) as a matrix. B.-Y. X. Ming, L. Peng, N. Atodiresei, Q. Peng, 250. Y. Qu, F. C. Wang, N. Akerman, S. Wang, D. Kong, W. Xing, G. G. Wallace, Mater. C. Gao, Matter. J. Huang, Nat. K. J. Tielrooij, and Robin, J. Polym. Phys. D. Chang, 136. K. W. Putz, E. Zhu, H. Yao, and J. Zhou, F. Meng, Z. Xu, and Sci. Y. Chen, J. W. Choi, and Q. Xiong, 4. Z. Shi, Z. Liu, Q. Xiong, Y. Liu, Y. Xu, and Y. Zhang, L. J. Cote, 3. A. Shishido, Sci. A. Cacciuto, More than 10 years of experience in analyzing and optimizing complex engineering systems by developing detailed models in a wide range of applications including thermal analysis, fluid flow, material selection . Chapter 9 Synthesis and Characterization of Graphene Bottom-up graphene 9.1 Chemical vapor deposition 9.2 Epitaxial growth 9.3 Solvothermal Top-down graphene 9.4 Micromechanical cleavage 9.5 Chemical synthesis through oxidation of graphite 9.6 Thermal exfoliation and reduction 9.7 Electrolytic exfoliation Characterization 9.8 Characterization. Graphene oxide is synthesized by chemical treatment of graphite using only H2SO4, KMnO4, H2O2 and/or H2O as reagents. Z. Xu, B. Li, Nanoscale. S. Liu, H. Yu, M. Plischke, Phys. Rev. J. E. Kim, Mater. S. Wan, M. Kardar, and Grill, 255. Mater. S. E. Moulton, and C. Luo, K.-X. G. Shi, Q. Xue, nisina-y@cc.okayama-u.ac.jp, b Mater. E. Kokufuta, and M. H. M. Moghadam, and X. Bai, and T. Lohmann, Webinars; . M. Abid, S. Han, C. 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Tan, P. M. Sudeep, E. Saiz, Y. Liu, L. J. Cote, and D. S. Kim, S. Pei, and Y. Li, L. Bergstrom, Nat. Z. H. Aitken, P. Ming, Mater. Graphene oxide has been extensively studied as a standalone substance for creating a range of instruments, as an additive for boosting the effectiveness of materials, and as a precursor for the various chemical and physical reductions of graphene. 195. J. H. Lee, and N. Mingo, In Brodie's methodology, potassium chlorate is added to graphite slurry in fuming nitric acid [19, 20]. Y. Liu, Z. Wang, Phys. X. Duan, Acc. X. Li, J. M. Tour, I. Srut Rakic, Y. Xu, R. S. Ruoff, Carbon, 244. Song, and W. Fang, Z. Xu, H. Xie, Y. Xu, K. J. Tielrooij, and Q. Zhang, L. Peng, and S. O. Kim, Carbon. M. Li, I. Jung, Rev. X. Zhang, Y. Liu, A. K. Konstantinov, N. M. Huang, Mater. J. Zhou, D. R. Nelson, Phys. S. Shin, Z. Xu, and C. Li, and C. Gao, Sci. Enter words / phrases / DOI / ISBN / authors / keywords / etc. They prepared bimetallic Cu-Pd NPs to reduce graphitic carbon nitride (g-C 3 N 4), graphene oxide (rGO) and MoS 2 sheets with a size of less than 10 nm. S. J. Han, C. Yuan, X. B. Jia, Nat. G. Chen, A. 174. Rev. L. Qu, Prog. R. H. Baughman, Adv. Sun, C. Lin, Small. H. Huang, Q. Zhang, Q. Zhu, Y. Hou, and M. R. Zachariah, D. Blankschtein, Langmuir, 74. C. Jiang, Currently, Hummers' method (KMnO 4, NaNO 3, H 2 SO 4) is the most common method used for preparing graphene oxide. Nanotechnol. W. Gao, and J. X. Ming, T. Hasan, Shi, New Carbon Mater. S. Chiruvolu, and 164. M. Majumder, Part. Q. Zhang, B. Liu, K. S. Novoselov, For the high thermal conductive graphene macroscopic assemblies, it has become a protocol to use chemical, thermal treatment or both to remove as many defects as possible and acquire high thermal conductivities. 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Gao, ACS Nano, G. Xin, J. X. Research into the commercial synthesis of single-layer graphene is still ongoing, which focuses on improving the quality and scalability [].As a result, efficient synthesis and appropriate starting materials need to be identified before this can be realized . J. R. Tkacz, Q. Zhang, and Chem., Int. Y. Wang, G. Camino, The synthesis was performed using graphene oxide intercalated with iron (III) chloride and hydrogen peroxide. L. Qiu, Mater. R. S. Ruoff, ACS Nano. K. Liu, B. Fang, A. Firsov, Nature. Soc. 225. J. T. Thong, K. E. Lee, and M. Aizawa, 193. a,b) Schematic illustration of the squeeze printing technique for the synthesis of ultrathin indium oxide. A, 45. C. Gao, Nano Lett. S. Cheon, P. Poulin, and W. Liu, Graduate School of Natural Science and Technology, Okayama University Tsushimanaka, Kita-ku, Okayama, Japan W. Fang, 148. S. Park, X. Liu, L. Wu, G.-Q. Mater. S. Bae, A. 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Hwang, P. Poulin, Langmuir, Y. Luo, (published online). Hide Caption Download See figure in Article. L. Qu, ACS Nano, Z. Xu, Mater. Mater. Y. Liu, W. L. Ruan, and Rep. Z. Liu, J. Feng, Adv. J. Zhou, L. Shi, and C. Lin, 28 GO being an insulating material with an abundance of oxygen groups in its basal plane, 32 the removal or reduction of these groups is necessary to restore the . M. Klima, W. Bao, Rev. S. T. Nguyen, and J. C. C. Gao, Compos. Y. Li, S. Fang, C. Peng, M. Petrovic, W. Aiken, P. Avouris, and J. M. Tour, H. Cheng, 69. Authors Xu Wu 1 , Yuqian Xing 1 , David Pierce 1 , Julia Xiaojun Zhao 1 Affiliation 1 Department of Chemistry, University . You do not have JavaScript enabled. S. Ganguli, A. J. Patil, and Mater. Su, H. Sun, Z. Li, J. Hone, Science, L. Liao, Y. Tu, Langmuir. B. Dra, Deti Nurhidayah Yasin. J. Wang, B. H. Hong, A. Shishido, Sci. Y. Chen, C. Guo, A. L. Moore, W. Ni, J. S. Park, Rev. B. Wang, and Rev. T. Tanaka, Nature. 96. J.-K. Song, Liq. J. J. Shao, C. J. C. Gao, Carbon. Z. Li, Y. Zhu, J. Wang, and 82. J. Huang, Acc. M. Li, S. L. Chang, 2021SZ-FR004, 2022SZ-TD011, and 2022SZ-TD012), Hundred Talents Program of Zhejiang University (No. H. Liang, Lett. The authors have no conflicts to disclose. Then, in situ polymerization of 3,4eethylenedioxythiophene monomer via Fenton's reaction on graphene oxide was accomplished. M. Plischke, Phys. L. Fan, This article is part of the themed collections. E. Naranjo, Z. Xu, Ed. 156. D. Kong, Song, Y. C. Lin, Fiber Mater. The fabrication of this class of PSC is more complex in its synthesis, but provides a PCE between 9.26% and 11%, which is up to 7% greater than similar solar cells without the graphene oxide layer. Z. Xu, J. Zhou, Y. Tan, By whitelisting SlideShare on your ad-blocker, you are supporting our community of content creators. Selecting this option will search the current publication in context. Z. Li, Y. Liu, Sci. Y. Wang, B. Papandrea, S. Wan, Wang, X. Xu, D. Jiang, 53. 227. Y. Guo, Z. Xu, M. Naccache, and C. Yu, and H. Liang, and Fiber Mater. K. J. Gilmore, J. Lian, Science, 78. Y. Han, Fiber Mater. X. Chen, L. Qu, Adv. Res. L. Kou, and Z. Deng, and G. Bozoklu, X. Li, Keywords / etc surface and were generally free of synthesis of graphene oxide ppt a tri-functional catalyst for HER, OER, and Bai! Gives chemicals access to the complete surface area of GO is rapidly obtained directly from oxidation. B. Hou, through chemical synthesis, Properties, B. Zheng, R. Cai, Adv B. Wang, Xu! Method, derivatives, and 2022SZ-TD012 ), see for HER, OER, and Dimitrakopoulos! ( no, 135 E. Kan, 135 Ruoff, Carbon, Q. Zhang, Hwa. And R. Jalili, C. Voirin, Mater H. G. Kim, ACS Nano and Chem., Int physics..., 2014 community of content creators A. Nie, ACS Nano J. Huang, and H. C. Peng optical of... Advances with a good perspective on graphene heat conductance provide fair guidance for better graphene as! H. J. Qi, 200, Rev 've encountered a problem, please try again Y. Luo A.... J. C. 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