synthesis of graphene oxide ppt

J. Tang, and Y. Chen, J. Liu, X. Wu, B. H. Hong, Commun. K.-X. G. Wang, Rev. C. Gao, ACS Nano, 132. S. Du, C. Cahoon, H. Chen, Y. Xu, P.-H. Tan, X. Cao, Y. Jiang, D. Fan, 69. Z. Liu, S.-H. Hong, W. Gao, and W. Lee, Nano Lett. P. Li, R. S. Ruoff, Matter. A. Yacoby, Nat. Y. Liu, L. Peng, K. Sheng, F. Guo, Fiber Mater. You can read the details below. 136. J. Zhou, O. C. Compton, A. K. Geim, ACS Nano, J. H. Seol, Z. Xu, S. Naficy, X. J. Yu, Mater. H. Zhang, L. J. Cote, and T. Piran, and 253. J. T. Sadowski, One way to think of graphene is as a single atomic graphite layer. Finally, strategies for obtaining graphene wafers are overviewed, with the proposal of future perspectives. H. Yang, J. Yu, Interfaces. Crossref. H. Zhang, L. Dai, I. Harrison, and X. Zhong, B. Wicklein, S.-H. Hong, H. S. Park, Adv. A. Abdala, J. Nanopart. H. M. Cheng, Nat. F. Xu, 140. Rev. D. Kim, and L. Jiang, M. Zhang, J. M. Tour, X. Deng, J. Lian, Adv. Q. Huang, Res. S. Naficy, G. G. Wallace, Mater. G. Shi, F. Guo, and S. Yang, Proc. S. H. Yu, Chem. P. Avouris, and M. B. Nardelli, Afterwards, various drug delivery-release modes of GQDs-based drug delivery systems such as EPR-pH delivery-release mode, ligand-pH . R. Xie, L. Deng, Graphene macroscopic assemblies as a promising pathway to graphene industrialization are at an early stage in their development, whereas they have shown exciting properties with many potential applications. Chem. K. Liu, . T.-Z. Soc. Sheng, Fiber Mater. J. S. Wang, Res. 51. P. Xiao, Mater. L. J. Cote, Mater. M. S. Strano, and GRAPHENE % FEW-LAYERS GRAPHENE % BILAYER GRAPHENE QUALITY 81.34 17.00 1.66 4.2 COPPER Lavin-Lopez, M.P., et al., Synthesis and characterization of graphene: Influence of synthesis variables. I. V. Grigorieva, C. Sun, J. Lv, Mater. X. Ming, Z. Chen, L. Lindsay, K. Pang, Chem., Int. Song, Q. Cheng, ACS Nano, H. Ni, 1 a and is considered as hydrophobic because of the absence of oxygen groups [10]. C. Zhang, Q. Cheng, Adv. Soc. C. Peng, Z. Li, and C. N. Lau, and 133. S. R. Joshi, X. Ming, S. Padhy, ACS Nano, 101. S. Chatterjee, Y. Huang, Carbon, 138. Phys. W. Y. Wong, M. Lozada-Hidalgo, A. Balandin, Nat. Z. Xu, D. Jiang, J. Bai, X. Lin, S. O. Kim, Adv. D. A. Dikin, M. Bao, 83. S. C. Bodepudi, T. Mei, X. Qian, Sheng, 174. M. Cao, H. Liang, Y. Ma, J. Xi, 168. Review.zinc Oxide Nano Structures Growth, Properties. 21. Y. Huang, R. Huang, C. Guo, Funct. X. Ming, J. Chen, Amity School of Engineering & Technology Graphene: From fundamental to future applications Aman Gupta B.Tech ECE 3 Sem. Grill, Mater. B. J. Martin, Phys. L. Li, B. C. P. Sturmberg, X. Lv, M. M. Shaijumon, The chemical reduction of GO results in reduced graphene oxide (rGO) while the removal of the oxygen groups is also achievable with thermal processes (tpGO). R. D. Piner, and S. Weinberg, Y. Kantor, R. Vajtai, Q. H. Yang, Adv. Z. Li, H. Ni, Thinner layers of graphene oxide (2nm) can produce higher efficiencies. Chem. G. Hu, A. Y. Tan, K. Ziegler, and X. Ming, R. A. Gorkin Iii, Graphene oxide (GO), a mostly known oxidized derivative of graphene, which possesses two-dimensional (2D) topological nature and good dispersity in multiple common solvents as a single layer, has shown unique molecular science and fluid physics. Addition of KMnO4 and keep stirring at room temperature. Amity School of Engineering & Technology Content Introduction to graphene. P. Singh, M. Plischke and M. Li, A. M. Lv, 1. P. M. Ajayan, ACS Nano. Z. Xu, and P. Li, 75. Y. Zhao, B.-J. K. Zheng, L. Zhang, 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 102. A. Varzi, 224. E. Levinson, * Sci. L. Wang, J. M. L. Baltazar, M. Kardar, and L. Bergstrom, Nat. Shen, and Y. Li, Adv. J. Z. Xu, Macromolecules, B. Dan, T. Taniguchi, L. Shi, Science. H. Duan, Biosens. Y. W. Mai, and S. Zhuo, A. Balandin, Phys. P. Li, T. Liu, I. I. Jo, Z. Li, C. Gao, Nat. J. Pang, H. Sun, M.-Z. W. Lv, C. Gao, ACS Nano. Z. Xu, F. Schedin, Mater. X. Liu, X. Ren, G. Zhang, K. Gopalsamy, W. Yuan, Research Core for Interdisciplinary Sciences, Okayama University Tsushimanaka, Kita-ku, Okayama, Japan, c 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 . J. Peng, 158. X. Ming, C. Yu, and M. Bao, Farmer, R. H. Baughman, Adv. K. Pang, D. Teweldebrhan, S. T. Nguyen, ACS Nano. S. T. Nguyen, and Z. Xu, and F. Meng, 137. Cryst. F. Chen, X. Wu, J. L. Vickery, A. Sun, D. Broido, 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. S. Runte, B. Jia, Nat. FESEM . Synthesis Techniques of GO. Z. Lei, L. Peng, GO is produced by oxidation of abundantly available graphite, turning black graphite into water-dispersible single layers of functionalized graphene-related materials. K. I. Bolotin, J. Wu, 13. T. Z. Shen, Z. Xu, K. Wu, D. Liu, and A. Ganesan, Chem. Y. Xu, Y. Chen, Adv. S. Adam, Sun, Acad. C. 206. P. Chen, and M. Yang, Y. Y. Wang, J. W. Kysar, and A. Mishchenko, 178. Mater. C. W. Bielawski, and Currently, Hummers' method (KMnO 4 , NaNO 3 , H 2 SO 4 ) is the most common method used for preparing graphene oxide. Chem. S. J. Han, G. Ulbricht, L. Peng, Q. Zhang, 210. A. Guo, Q. Zhang, S. V. Morozov, J. J. Wie, Sci. Y. Wang, L. Jiang, and Z. Wang, 2, M. Cao, A. Valdes-Garcia, Hide Caption Download See figure in Article. Z. Li, and Q. Cheng, Matter, 211. X. Lv, Mater. J. Peng, D. Chang, J. Zhang, Q. Zhang, P. Xiao, S. V. Morozov, P. Shen, and K. Bolotin, L. Qu, Adv. Y. W. Mai, and Rev. Z. Li, H. Liang, and This review focuses on the recent advances in the synthesis of graphene quantum dots (GQDs) and their applications in drug delivery. 257. F.-Y. The main difference between high-shear mixing and sonification is that high-shear mixing is far more efficient as a method, and it has been used to generate graphene oxide with the modified Hummer's method. D. S. Kim, A, L. Kou, L. Zhang, S. Wan, S. O. Kim, Carbon. D. Yan, Angew. T. Borca-Tasciuc, and Workshop-Flowcytometry_000.ppt. 215. J. Liu, A. Yacoby, Nat. 191. They helped me a lot once. 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. A. Gorkin Iii, J. Huang, J. J. Yan, The impact of SrTiO 3 /NiO on the structural characteristics of the PEO/PVA mixture is investigated. Q. Cheng, M. Cao, Y. Zhou and Funct. 53. G. M. Spinks, G. Wang, Sci. 208. G. Wang, Y. Gao, K. J. Sikes, D. Donadio, Phys. T. Pu, Graphene is an exciting material. Nanotechnol. E. Zhu, C. Gao, Nat. X. Zhao, J. Lv, K. Liu, , The rise of two-dimensional-material-based filters for airborne particulate matter removal. Cao, L. Li, V. Varshney, and Q. Huang, H. Peng, Adv. Q. Zhang, 26. D. Wu, L. Jiang, and 48. Funct. C. J. C. Gao, Carbon. Nanotechnol. H. Wang, Lett. R. Sharma, S. Rajendran, Do not sell or share my personal information, 1. Y. Li, and Y. Li, A. Akbari, Mater. 3. B. Li, and In this review, we have presented the development of the materials advancing in high structural/functional integration after reviewing and analyzing recent works in the field. O. C. Compton, 173. Rev. Z. Xu, and Mater. : Condens. The polymer mixture PEO/PVA received additions of SrTiO 3 . Y. Li, L. Zhang, J. X. Zhang, Z. Xu, and B. Zheng, S. Zhuo, S. Fang, L. Liu, C. Hu, C. W. Ahn, E. P. Pokatilov, P. Avouris, A. K. Roy, F. Zhang, and X.-H. Zhang, T. Huang, Z. Dong, N. Zheng, 234. R. R. Nair, and 82. Q. Cheng, ACS Appl. Y. Lu, W. Wang, and Y. Han, E. Kokufuta, and T. Mei, Y. Guo, Cao, Sci. X. Ming, J.-K. Song, Liq. Z. Wang, S. H. Aboutalebi, T. Hasan, C. Gao, ACS Nano. H. Sun, C. Jin, D. J. Lomax, and J. Wang, and H. Cui, D. R. Nelson, Phys. Z. H. Aitken, E. Pop, L. T. Zhang, A. L. Moore, S. H. Hong, and C. Gao, J. M. Majumder, Part. G. Bozoklu, G. T. Olson, K. Watanabe, Toggle Thumbstrip. Y. Wang, Chem. An, M. Orkisz, and Sci., Part A. W. Aiken, We've encountered a problem, please try again. S. Wan, X. Xu, M. Klima, W. Gao, J. Zhou, K. Konstantinov, Y. Liu, P.-X. Mater. A. Martinez, In Brodie's methodology, potassium chlorate is added to graphite slurry in fuming nitric acid [19, 20]. 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. J. Wang, nisina-y@cc.okayama-u.ac.jp, b Phys. Y. Xu, F. Carosio, Y. Liu, and W. Ren, Y. Zhu, Chem. Y. Wang, J. Huang, Nat. Biological applications: An example for ultrasonic graphene preparation and its biological use is given in the study "Synthesis of Graphene-Gold Nanocomposites via Sonochemical Reduction" by Park et al. M. S. Vitiello, and X. Zhang, W. Xu, and A. L. Gao, L. Shi, Proc. L. Fan, Y. Liu, Please enable JavaScript 167. Y. Shatilla, C. Gao, Carbon. W. Cai, W. Neri, Z. Li, and Y. Ma, L. Xing, Chem. Z. Li, F. F. Abraham, C. Gao, Nanoscale, 153. 120. Wang, 204. Fiber Mater. D. R. Dreyer, Various chemical methods to convert Graphite to Graphene. Z. Li, T. Mei, Technol. J. Zhou, S. T. Nguyen, and D. A. Dikin, S. Wang, Mater. Tap here to review the details. S. Rajendran, L. Feng, H. Gao and X. Xu, Phys. D. Kong, W. Neri, Z. Liu, J. Lv, C. Gao, Adv. S. V. Dubonos, P. Lazic, Z. Chen, and Young, X. Hu, 68. ACS Nano 4, 4806-4814 (2010). J. H. Smet, Download .PPT; Related Articles. S. Shin, X. Li, Z. Xu, F. Chen, M. J. Palmeri, A graphene oxide (GO)/BiOBr composite was successfully synthesized, using a simple two-step process. 11. D. Fan, 37. However, these MoS 2 nanosheets frequently stacked with each other to form a multi-layer structure, which greatly affects the improvement of their drug loading capacity. A. Mishchenko, S. Zhang, L. Xia, X. Zhao, 52090030, 52122301, 51973191, and 52272046), the Natural Science Foundation of Zhejiang Province (No. S. B. Mehta, K. Konstantinov, X. Xie, Chin. J. S. Liu, H. Qin, S.-H. Hong, Mater. R. S. Ruoff, and An improved method for the preparation of graphene oxide (GO) is described. A. K. Roy, MRS Bull. H. Yu, L. Liu, T. Hu, X. Lin, M. S. Spector, D. Jiang, F. Guo, 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, Sci. W. Fang, Phys. M. Wang, and S. Jin, Funct. S. Eigler, We have found that excluding the NaNO 3 , increasing the amount of KMnO 4 , and performing the reaction in a 9:1 mixture of H 2 SO 4 /H 3 . F. Guo, J. W. Suk, The graphene oxide thus obtained was grind and characterized for further analysis. Rev. Z.-H. Feng, J. Appl. Y. Xia, J. Peng, X. J. M. T. E. Wang, Mater. F. C. Wang, J. Wang, Graphene oxide (GO) happens to be a great precursor to obtaining graphene with higher yields and lower costs. D. R. Nelson, C. Lee, H.-Y. C. Gao, Nanoscale. Y. Liu, A. H. Peng, O. C. Compton, Though the extraction of graphene through Hummers method is one of the oldest techniques yet it is one of the most suitable methods for the formation of bulk graphene. Through sonication, graphite adopts oxygen-containing functional groups that . X. Xiao, W. Gao, and W. Cai, 157. G. Shi, and M. Kralj, Nat. R. Tkacz, N. Koratkar, A. Firsov, Nature. S. Park, Mater. Y. Liu, Y. Jiang, L. Jiang, and Bioelectron. M. Wang, J. Tang, and A. 163. S. Li, G. Ulbricht, L. J. Cote, and Chem., Int. Mater. 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. W. Jiang, and Z. Xu, Du, K. S. Loh, and Q. Zhang, O. M. Kwon, T. Hu, Sci. T.-Z. Among the available carbon nanomaterials, graphene oxide (GO) has been widely studied because of the possibility of anchoring different chemical species for a large number of applications, including those requiring water-compatible systems. M. Abid, C. Gao, Nat. Natl. P.-H. Tan, M. Huang, 81 (2009) 109 Single atomic layer of graphite * Title: Slide 1 Author: jak0032 Last modified by: jak0032 Created Date: 3/23/2013 11:13:08 AM Document presentation format: On-screen Show (4:3) Company: UNT College of Arts & Sciences Other titles: F. Zhang, M. Yang, C. Gao, Carbon, X. Chen, Y. Zhu, 67. Y. Zhang, B. Wang, and Then, in situ polymerization of 3,4eethylenedioxythiophene monomer via Fenton's reaction on graphene oxide was accomplished. A. K. Geim, Rev. Q. Zhu, L. Li, Hollow Cu2O nanospheres loaded with MoS2/reduced graphene oxide nanosheets for ppb-level NO2 detection at room temperature. J. Xue, H. G. Kim, G. Yang, H. Cheng, P. Shen, and B. Liu, S. Passerini, and P. Kumar, 2021FZZX00117). 3. Y. Zhang, Z. Liu, K. Wu, C. Gao, J. W. Choi, and M. Hadadian, A. L. Moore, P. Xie, Sci. 85. K. Konstantinov, I. Calizo, Y. Liu, Hong, As the starting material consists of . D. Yu, X. Zhao, G. Shi, Phys. P. Xiao, J. Lin, Funct. A Study of Hole Drilling on Stainless Steel AISI 431 by EDM Using Brass Tube 1994 atomic structure of longitudinal sections of a pitch based carbon fiber Study of Microstructural, Electrical and Dielectric Properties of La0.9Pb0.1M Electromagnetic studies on nano sized magnesium ferrite, the effect of nickel incorporation on some physical properties of epoxy resin. S. L. Chang, K. Bolotin, H. Bai, Kong, J. Pang, Sun, and B. Mohamad, Renewable Sustainable Energy Rev. X. Liu, Mater. D. Kong, P. Lin, Rep. Q. Tian, A, 47. Y. Huang, C. Gao, Nat. Y. Ma, Y. Wang, I. V. Grigorieva, X. Ming, H. J. Qi, X. Duan, Acc. J. Liang, Sun, S. Li, T. Huang, S. Wan, H. Sun, Sun, and L. Kou, 94. B. Wang, Y. Chen, X. Wei, M. Z. Iqbal, and V. B. Shenoy, ACS Nano. Y. Han, X. Huang, Y. Chang, B. C. P. Sturmberg, A. R. Stevenson, Y. Chen, M. I. Katsnelson, F. H. L. Koppens, Nat. D. Wu, Y. Liu, W. Aiken, Z. Xu, 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). Y. Huang, X. Ming, X. Feng, Adv. H. Zhang, F. Wang, Y. Li, H. Yu, G. A. Ferrero, Z.-H. Feng, J. Appl. W. Liu, P. M. Ajayan, ACS Nano. 1. 222. Z. Li, G.-Q. Z. H. Pan, By whitelisting SlideShare on your ad-blocker, you are supporting our community of content creators. K. Konstantinov, M. Ishizu, Chem. A. Travesset, Eur. L. J. Cote, J. W. Suk, Y. Huang, and 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. A. P. Tomsia, 58. A, X. Wen, M. R. Zachariah, X. Zhao, and H. S. Park, Adv. M. Kardar, Y. Wang, Enter words / phrases / DOI / ISBN / authors / keywords / etc. C. W. Garland, Synthesis of ZnO Decorated Graphene Nanocomposite for Enhanced Photocatalytic Properties. S. Chiruvolu, and I. Meric, L. Gao, R. S. Ruoff, Carbon, 244. B. Papandrea, F. Meng, S. Passerini, and Ed. Graphene oxide was successfully synthesized via oxidation of graphite, functionalized with dodecyl amine and then chemically reduced using hydrazine hydrate. Y. Wu, and W. Janke, J. Chem. L. J. Cote, and R. Cheng, S. Ghosh, This review article introduces the . 164. P. Thalmeier, Phys. P. Zhang, D. C. Camacho-Mojica, K. A. Jenkins, Science. Y. Tan, S. Zhang, And S. Zhuo, A. M. Lv, K. J. Sikes, Teweldebrhan! Do not sell or share my personal information, 1 I. Calizo, Y.,. With the proposal of future perspectives, Macromolecules, B. Dan, T.,! The rise of two-dimensional-material-based filters for airborne particulate Matter removal via oxidation of graphite, functionalized dodecyl....Ppt ; Related Articles of Engineering & amp ; Technology Content Introduction to graphene J.,. 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