Large scale production of highly conductive reduced graphene oxide sheets by a solvent-free low temperature reduction

Carbon

Volumn 69, Issue , 2014, Pages 327-335

  Lee, Kyu Hyung ^a   Lee, Byeongno ^a   Hwang, Son Jong ^b   Lee, Jae Ung ^a   Cheong, Hyeonsik ^a   Kwon, Oh Sun ^a   Shin, Kwanwoo ^a   Hur, Nam Hwi ^a  

^a Sogang University   (South Korea)

^b California Institute of Technology   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CONDUCTIVITY MEASUREMENTS; HIGH SPECIFIC SURFACE AREA; LARGE SCALE PRODUCTIONS; LOW-TEMPERATURE REDUCTION; MECHANO-CHEMICAL METHODS; REDUCED GRAPHENE OXIDES; REDUCED GRAPHENE OXIDES (RGO); SOLID STATE NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY;

CARBON DIOXIDE; FOURIER TRANSFORM INFRARED SPECTROSCOPY; HYDRAZINE; NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY; PHOTOELECTRONS; THERMOGRAVIMETRIC ANALYSIS; X RAY DIFFRACTION; X RAY PHOTOELECTRON SPECTROSCOPY;

GRAPHENE;

EID: 84892796552     PISSN: 00086223     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbon.2013.12.031     Document Type: Article

References (74)

1. K.S. Novoselov, A.K. Geim, S.V. Morozov, D. Jiang, Y. Zhang, and S.V. Dubonos et al. Electric field effect in atomically thin carbon films Science 306 2004 666 669 (Pubitemid 39440910)
2. A.A. Balandin, S. Ghosh, W. Bao, I. Calizo, D. Teweldebrhan, and F. Miao et al. Superior thermal conductivity of single-layer graphene Nano Lett 8 2008 902 907
3. M.J. Allen, V.C. Tung, and R.B. Kaner Honeycomb carbon: a review of graphene Chem Rev 110 2009 132 145
4. R.R. Nair, P. Blake, J.R. Blake, R. Zan, S. Anissimova, and U. Bangert et al. Graphene as a transparent conductive support for studying biological molecules by transmission electron microscopy Appl Phys Lett 97 2010 153102
5. C. Lee, X.D. Wei, J.W. Kysar, and J. Hone Measurement of the elastic properties and intrinsic strength of monolayer graphene Science 321 2008 385 388 (Pubitemid 352029970)
6. P. Avouris Graphene: electronic and photonic properties and devices Nano Lett 10 2010 4285 4294
7. S. Frank Graphene transistors Nat Nanotechnol 5 2010 487 496
8. W.S. Lim, Y.Y. Kim, H. Kim, S. Jang, N. Kwon, and B.J. Park et al. Atomic layer etching of graphene for full graphene device fabrication Carbon 50 2012 429 435
9. F. Schedin, A.K. Geim, S.V. Morozov, E.W. Hill, P. Blake, and M.I. Katsnelson et al. Detection of individual gas molecules adsorbed on graphene Nat Mater 6 2007 652 655 (Pubitemid 47359547)
10. G. Lu, L. Ocola, and J. Chen Gas detection using low temperature reduced graphene oxide sheets Appl Phys Lett 94 2009 083111
11. O. Akhavan, E. Ghaderi, and R. Rahighi Toward single-DNA electrochemical biosensing by graphene nanowalls ACS Nano 6 2012 2904 2916
12. L. Guo, H.-B. Jiang, R.-Q. Shao, Y.-L. Zhang, S.-Y. Xie, and J.-N. Wang et al. Two-beam-laser interference mediated reduction, patterning and nanostructuring of graphene oxide for the production of a flexible humidity sensing device Carbon 50 2012 1667 1673
13. Y. Chen, X. Zhang, D. Zhang, P. Yu, and Y. Ma High performance supercapacitors based on reduced graphene oxide in aqueous and ionic liquid electrolytes Carbon 49 2011 573 580
14. M.F. El-Kady, V. Strong, S. Dubin, and R.B. Kaner Laser scribing of high-performance and flexible graphene-based electrochemical capacitors Science 335 2012 1326 1330
15. Z. Fan, Q. Zhao, T. Li, J. Yan, Y. Ren, and J. Feng et al. Easy synthesis of porous graphene nanosheets and their use in supercapacitors Carbon 50 2012 1699 1703
16. J. Liang, Y. Wang, Y. Huang, Y. Ma, Z. Liu, and J. Cai et al. Electromagnetic interference shielding of graphene/epoxy composites Carbon 47 2009 922 925
17. V.C. Tung, M.J. Allen, Y. Yang, and R.B. Kaner High-throughput solution processing of large-scale graphene Nat Nanotechnol 4 2009 25 29
18. C. Nethravathi, and M. Rajamathi Chemically modified graphene sheets produced by the solvothermal reduction of colloidal dispersions of graphite oxide Carbon 46 2008 1994 1998
19. D.R. Dreyer, S. Park, C.W. Bielawski, and R.S. Ruoff The chemistry of graphene oxide Chem Soc Rev 39 2010 228 240
20. S. Pei, and H.-M. Cheng The reduction of graphene oxide Carbon 50 2012 3210 3228
21. S. Stankovich, D.A. Dikin, R.D. Piner, K.A. Kohlhaas, A. Kleinhammes, and Y. Jia et al. Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide Carbon 45 2007 1558 1565 (Pubitemid 46829016)
22. H.-J. Shin, K.K. Kim, A. Benayad, S.-M. Yoon, H.K. Park, and I.-S. Jung et al. Efficient reduction of graphite oxide by sodium borohydride and its effect on electrical conductance Adv Funct Mater 19 2009 1987 1992
23. G. Wang, J. Yang, J. Park, X. Gou, B. Wang, and H. Liu et al. Facile synthesis and characterization of graphene nanosheets J Phys Chem C 112 2008 8192 8195
24. J. Zhang, H. Yang, G. Shen, P. Cheng, J. Zhang, and S. Guo Reduction of graphene oxide via L-ascorbic acid Chem Commun 46 2010 1112 1114
25. J. Gao, F. Liu, Y. Liu, N. Ma, Z. Wang, and X. Zhang Environment-friendly method to produce graphene that employs vitamin C and amino acid Chem Mater 22 2010 2213 2218
26. M.J. Fernández-Merino, L. Guardia, J.I. Paredes, S. Villar-Rodil, P. Solís-Fernández, and A. Martínez-Alonso et al. Vitamin C is an ideal substitute for hydrazine in the reduction of graphene oxide suspensions J Phys Chem C 114 2010 6426 6432
27. I.K. Moon, J. Lee, R.S. Ruoff, and H. Lee Reduced graphene oxide by chemical graphitization Nat Commun 1 2010 73
28. O. Akhavan, E. Ghaderi, S. Aghayee, Y. Fereydooni, and A. Talebi The use of a glucose-reduced graphene oxide suspension for photothermal cancer therapy J Mater Chem 22 2012 13773 13781
29. O. Akhavan, E. Ghaderi, and A. Esfandiar Wrapping bacteria by graphene nanosheets for isolation from environment, reactivation by sonication, and inactivation by near-infrared irradiation J Phys Chem B 115 2011 6279 6288
30. A. Esfandiar, O. Akhavan, and A. Irajizad Melatonin as a powerful bio-antioxidant for reduction of graphene oxide J Mater Chem 21 2011 10907 10914
31. O. Akhavan, M. Kalaee, Z.S. Alavi, S.M.A. Ghiasi, and A. Esfandiar Increasing the antioxidant activity of green tea polyphenols in the presence of iron for the reduction of graphene oxide Carbon 50 2012 3015 3025
32. Y. Wang, Z.X. Shi, and J. Yin Facile synthesis of soluble graphene via a green reduction of graphene oxide in tea solution and its biocomposites ACS Appl Mater Interfaces 3 2011 1127 1133
33. C. Zhu, S. Guo, Y. Fang, and S. Dong Reducing sugar: new functional molecules for the green synthesis of graphene nanosheets ACS Nano 4 2010 2429 2437
34. J. Liu, S. Fu, B.M. Yuan, Y. Li, and Z. Deng Toward a universal adhesive nanosheet for the assembly of multiple nanoparticles based on a protein-induced reduction/decoration of graphene oxide J Am Chem Soc 132 2010 7279 7281
35. E.C. Salas, Z. Sun, A. Lüttge, and J.M. Tour Reduction of graphene oxide via bacterial respiration ACS Nano 4 2010 4852 4856
36. O. Akhavan, and E. Ghaderi Escherichia coli bacteria reduce graphene oxide to bactericidal graphene in a self-limiting manner Carbon 50 2012 1853 1860
37. O. Akhavan, E. Ghaderi, E. Abouei, S. Hatamie, and E. Ghasemi Accelerated differentiation of neural stem cells into neurons on ginseng-reduced graphene oxide sheets Carbon 66 2014 395 406
38. S. Stankovich, R.D. Piner, X. Chen, N. Wu, S.T. Nguyen, and R.S. Ruoff Stable aqueous dispersions of graphitic nanoplatelets via the reduction of exfoliated graphite oxide in the presence of poly(sodium 4-styrenesulfonate) J Mater Chem 16 2006 155 158 (Pubitemid 43324471)
39. D. Li, M.B. Müller, S. Gilje, R.B. Kaner, and G.G. Wallace Processable aqueous dispersions of graphene nanosheets Nat Nanotechnol 3 2008 101 105 (Pubitemid 351225404)
40. Y. Zhao, C. Hu, Y. Hu, H. Cheng, G. Shi, and L. Qu A versatile, ultralight, nitrogen-doped graphene framework Angew Chem Int Ed 51 2012 11371 11375
41. K. Ai, Y. Liu, L. Lu, X. Cheng, and L. Huo A novel strategy for making soluble reduced graphite oxide sheets cheaply by adopting an endogenous reducing agent J Mater Chem 21 2011 3365 3370
42. Y. Zhou, Q.L. Bao, L.A.L. Tang, Y.L. Zhong, and K.P. Loh Hydrothermal dehydration for the ''green'' reduction of exfoliated graphene oxide to graphene and demonstration of tunable optical limiting properties Chem Mater 21 2009 2950 2956
43. Y. Zhu, S. Murali, M.D. Stoller, A. Velamakanni, R.D. Piner, and R.S. Ruoff Microwave assisted exfoliation and reduction of graphite oxide for ultracapacitors Carbon 48 2010 2118 2122
44. H.A. Becerril, J. Mao, Z. Liu, R.M. Stoltenberg, Z. Bao, and Y. Chen Evaluation of solution-processed reduced graphene oxide films as transparent conductors ACS Nano 2 2008 463 470
45. C. Xu, X. Wang, and J. Zhu Graphene metal particle nanocomposites J Phys Chem C 112 2008 19841 19845
46. 2-graphene nanocomposites. UV-assisted photocatalytic reduction of graphene oxide ACS Nano 2 2008 1487 1491
47. 2 thin film for photoinactivation of bacteria in solar light irradiation J Phys Chem C 113 2009 20214 20220
48. O. Akhavan Graphene nanomesh by ZnO nanorod photocatalysts ACS Nano 4 2010 4174 4180
49. 2 nanoparticles after a photocatalytic reduction J Phys Chem C 114 2010 12955 12959
50. Y.H. Ng, A. Iwase, N.J. Bell, A. Kudo, and R. Amal Semiconductor/reduced graphene oxide nanocomposites derived from photocatalytic reactions Catal Today 164 2011 353 357
51. O. Akhavan Photocatalytic reduction of graphene oxides hybridized by ZnO nanoparticles in ethanol Carbon 49 2011 11 18
52. O. Akhavan, M. Choobtashani, and E. Ghaderi Protein degradation and RNA efflux of viruses photocatalyzed by graphene-tungsten oxide composite under visible light irradiation J Phys Chem C 116 2012 9653 9659
53. L.J. Cote, R. Cruz-Silva, and J.X. Huang Flash reduction and patterning of graphite oxide and its polymer composite J Am Chem Soc 131 2009 11027 11032
54. B. Lee, S.H. Kang, D. Kang, K.H. Lee, J. Cho, and W. Nam et al. Isolation and structural characterization of the elusive 1:1 adduct of hydrazine and carbon dioxide Chem Commun 47 2011 11219 11221
55. B. Lee, K.H. Lee, J. Cho, W. Nam, and N.H. Hur Synthesis of azines in solid state: reactivity of solid hydrazine with aldehydes and ketones Org Lett 13 2011 6386 6389
56. S.L. James, C.J. Adams, C. Bolm, D. Braga, P. Collier, and T. Friščić et al. Mechanochemistry: opportunities for new and cleaner synthesis Chem Soc Rev 41 2012 413 447
57. W.S. Hummers, and R.E. Offeman Preparation of graphitic oxide J Am Chem Soc 80 1958 1339
58. N. Hüsing, and U. Schubert Aerogels-airy materials: chemistry, structure, and properties Angew Chem Int Ed 37 1998 22 45
59. J. An, E. Voelkl, J.W. Suk, X. Li, C.W. Magnuson, and L. Fu et al. Domain (grain) boundaries and evidence of ''twinlike" structures in chemically vapor deposited grown graphene ACS Nano 5 2011 2433 2439
60. O. Akhavan, E. Ghaderi, and A. Akhavan Size-dependent genotoxicity of graphene nanoplatelets in human stem cells Biomaterials 33 2012 8017 8025
61. W. Gao, L.B. Alemany, L. Ci, and P.M. Ajayan New insights into the structure and reduction of graphite oxide Nat Chem 1 2009 403 408
62. S. Park, Y. Hu, J.O. Hwang, E.-S. Lee, L.B. Casabianca, and W. Cai et al. Chemical structures of hydrazine-treated graphene oxide and generation of aromatic nitrogen doping Nat Commun 3 2012 638
63. A.C. Ferrari, J.C. Meyer, V. Scardaci, M. Casiraghi, F. Lazzeri, and S. Piscanec et al. Phys Rev Lett 97 2006 187401
64. H. Wang, J.T. Robinson, X. Li, and H. Dai J Am Chem Soc 131 2009 9910 9911
65. I. Calizo, A.A. Balandin, W. Bao, F. Miao, and C.N. Lau Temperature dependence of the Raman spectra of graphene and graphene multilayers Nano Lett 7 2007 2645 2649 (Pubitemid 47522415)
66. K.N. Kudin, B. Ozbas, H.C. Schniepp, R.K. Prud'homme, I.A. Aksay, and R. Car Raman spectra of graphite oxide and functionalized graphene sheets Nano Lett 8 2008 36 41 (Pubitemid 351177772)
67. K.S. Kim, Y. Zhao, H. Jang, S.Y. Lee, J.M. Kim, and K.S. Kim et al. Large-scale pattern growth of graphene films for stretchable transparent electrodes Nature 457 2009 706 710
68. O. Akhavan, and E. Ghaderi Graphene nanomesh promises extremely efficient in vivo photothermal therapy Small 9 2013 3593 3601
69. H. Bi, X. Xie, K. Yin, Y. Zhou, S. Wan, and L. He et al. Spongy graphene as a highly efficient and recyclable sorbent for oils and organic solvents Adv Funct Mater 22 2012 4421 4425
70. A. Peigney, C. Laurent, E. Flahaut, R.R. Bacsa, and A. Rousset Specific surface area of carbon nanotubes and bundles of carbon nanotubes Carbon 39 2001 507 514 (Pubitemid 32263502)
71. B.-S. Kong, H.-W. Yoo, and H.-T. Jung Electrical conductivity of graphene films with a poly(allylamine hydrochloride) supporting layer Langmuir 25 2009 11008 11013
72. H. Sirringhaus, T. Kawase, R.H. Friend, T. Shimoda, M. Inbasekaran, and W. Wu et al. High-resolution inkjet printing of all-polymer transistor circuits Science 290 2000 2123 2126 (Pubitemid 32001588)
73. F. Torrisi, T. Hasan, W. Wu, Z. Sun, A. Lombardo, and T.S. Kulmala et al. Inkjet-printed graphene electronics ACS Nano 6 2012 2992 3006
74. K.-Y. Shin, J.-Y. Hong, and J. Jang Micropatterning of graphene sheets by inkjet printing and its wideband dipole-antenna application Adv Mater 23 2011 2113 2118