Nitrogen-doped graphene nanosheets from bulk graphite using microwave irradiation

ACS Applied Materials and Interfaces

Volumn 6, Issue 9, 2014, Pages 6361-6368

  Lee, Kwang Hoon ^a   Oh, Jinwoo ^a,c   Son, Jeong Gon ^a   Kim, Heesuk ^a   Lee, Sang Soo ^a,b  

^a Korea Institute of Science and Technology   (South Korea)

^b Korea University   (South Korea)

^c Inha University   (South Korea)

Author keywords

graphene nanosheet; graphite; microwave irradiation; nitrogen doped

Indexed keywords

DOPING (ADDITIVES); ELECTRIC CONDUCTIVITY; GRAPHITE; IRRADIATION; MICROWAVE IRRADIATION; NANOSHEETS; NITROGEN;

BINDING CONFIGURATION; CAPACITIVE PERFORMANCE; ELECTRICAL CONDUCTIVITY; GRAPHENE NANOSHEETS; NITROGEN-DOPED; NITROGEN-DOPED GRAPHENE; NITROGEN-DOPED GRAPHENE NANOSHEETS; REDUCED GRAPHENE OXIDES;

GRAPHENE;

EID: 84900836983     PISSN: 19448244     EISSN: 19448252     Source Type: Journal    
DOI: 10.1021/am405735c     Document Type: Conference Paper

References (50)

1. Ponomarenko, L. A.; Schedin, F.; Katsnelson, M. I.; Yang, R.; Hill, E. W.; Novoselov, K. S.; Geim Chaotic Dirac Billiard in Graphene Quantum Dots. A. K Science 2008, 320, 356-358
2. Lu, J.; Drzal, L. T.; Worden, R. M.; Lee, I. Simple Fabrication of a Highly Sensitive Glucose Biosensor Using Enzymes Immobilized in Exfoliated Graphite Nanoplatelets Nafion Membrane Chem. Mater. 2007, 19, 6240-6246
3. Schwierz, F. Graphene Transistors Nat. Nanotechnol. 2010, 5, 487-496
4. Dimitrakakis, G. K.; Tylianakis, E.; Froudakis, G. E. Pillared Graphene: A New 3D Network Nanostructure for Enhanced Hydrogen Storage Nano Lett. 2008, 8, 3166-3170
5. Lightcap, I. V; Kosel, T. H.; Kamat, P. V. Anchoring Semiconductor and Metal Nanoparticles on a Two-Dimensional Catalyst Mat. Storing and Shuttling Electrons with Reduced Graphene Oxide Nano Lett. 2010, 10, 577-583
6. Cervantes-Sodi, F.; Csányi, G.; Piscanec, S.; Ferrari, A. C. Edge-Functionalized and Substitutionally Doped Graphene Nanoribbons: Electronic and Spin Properties Phys. Rev. B 2008, 77, 165427
7. Song, L. L.; Zheng, X. H.; Wang, R. L.; Zeng, Z. Dangling Bond States, Edge Magnetism, and Edge Reconstruction in Pristine and B/N-Terminated Zigzag Graphene Nanoribbons J. Phys. Chem. C 2010, 114, 12145-12150
8. Dutta, S.; Pati, S. K. Novel Properties of Graphene Nanoribbons: a Review J. Mater. Chem. 2010, 20, 8207-8223
9. Wang, X.; Li, X.; Zhang, L.; Yoon, Y.; Weber, P. K.; Wang, H.; Guo, J.; Dai, H. N-Doping of Graphene Through Electrothermal Reactions with Ammonia Science 2009, 324, 768-771
10. Panchakarla, L. S.; Subrahmanyam, K. S.; Saha, S. K.; Govindaraj, A.; Krishnamurthy, H. R.; Waghmare, U. V; Rao, C. N. R. Synthesis, Structure, and Properties of Boron- and Nitrogen-Doped Graphene Adv. Mater. 2009, 21, 4726-4730
11. Gong, K.; Du, F.; Xia, Z.; Durstock, M.; Dai, L. Nitrogen-Doped Carbon Nanotube Arrays with High Electrocatalytic Activity for Oxygen Reduction Science 2009, 323, 760-764
12. Lee, S. U.; Belosludov, R. V; Mizuseki, H.; Kawazoe, Y. Designing Nanogadgetry for Nanoelectronic Devices with Nitrogen-Doped Capped Carbon Nanotubes Small 2009, 5, 1769-1775
13. Reddy, A. L. M.; Srivastava, A.; Gowda, S. R.; Gullapalli, H.; Dubey, M.; Ajayan, P. M. Synthesis Of Nitrogen-Doped Graphene Films For Lithium Battery Application ACS Nano 2010, 4, 6337-6342
14. Zhang, L.-S.; Liang, X.-Q.; Song, W.-G.; Wu, Z.-Y. Identification of the Nitrogen Species on N-Doped Graphene Layers and Pt/NG Composite Catalyst for Direct Methanol Fuel Cell Phys. Chem. Chem. Phys. 2010, 12, 12055-12059
15. Liu, Q.; Cui, Z.-M.; Ma, Z.; Bian, S.-W.; Song, W.-G. Highly Active and Stable Material for Catalytic Hydrodechlorination Using Ammonia-Treated Carbon Nanofibers as Pd Supports J. Phys. Chem. C 2008, 112, 1199-1203
16. Wang, X.; Lee, J. S.; Zhu, Q.; Liu, J.; Wang, Y.; Dai, S. Ammonia-Treated Ordered Mesoporous Carbons as Catalytic Materials for Oxygen Reduction Reaction Chem. Mater. 2010, 22, 2178-2180
17. Li, N.; Wang, Z.; Zhao, K.; Shi, Z.; Gu, Z.; Xu, S. Large Scale Synthesis of N-Doped Multi-Layered Graphene Sheets by Simple Arc-Discharge Method Carbon 2010, 48, 255-259
18. Lin, Y.-C.; Lin, C.-Y.; Chiu, P.-W. Controllable Graphene N-Doping with Ammonia Plasma Appl. Phys. Lett. 2010, 96, 133110-133113
19. Li, X.; Wang, H.; Robinson, J. T.; Sanchez, H.; Diankov, G.; Dai, H. Simultaneous Nitrogen Doping and Reduction of Graphene Oxide J. Am. Chem. Soc. 2009, 131, 15939-44
20. Wakeland, S.; Martinez, R.; Grey, J. K.; Luhrs, C. C. Production of Graphene from Graphite Oxide using Urea as Expansion-Reduction Agent Carbon 2010, 48, 3463-3470
21. Muraliganth, T.; Stroukoff, K. R.; Manthiram, A. Microwave-Solvothermal Synthesis of Nanostructured Li2MSiO4/C (M = Mn and Fe) Cathodes for Lithium-Ion Batteries Chem. Mater. 2010, 22, 5754-5761
22. Yoon, S.; Manthiram, A. Microwave-Hydrothermal Synthesis of W0. 4Mo0.6O3 and Carbon-Decorated WOx-MoO2 Nanorod Anodes for Lithium Ion Batteries J. Mater. Chem. 2011, 21, 4082-4085
23. Gerbec, J. A.; Magana, D.; Washington, A.; Strouse, G. F. Microwave-Enhanced Reaction Rates for Nanoparticle Synthesis J. Am. Chem. Soc. 2005, 127, 15791-15800
24. Panda, A. B.; Glaspell, G.; El-Shall, M. S. Microwave Synthesis of Highly Aligned Ultra Narrow Semiconductor Rods and Wires J. Am. Chem. Soc. 2006, 128, 2790-2791
25. Nadagouda, M. N.; Speth, T. F.; Varma, R. S. Microwave-Assisted Green Synthesis of Silver Nanostructures Acc. Chem. Res. 2011, 44, 469-478
26. Melucci, M.; Treossi, E.; Ortolani, L.; Giambastiani, G.; Morandi, V.; Klar, P.; Casiraghi, C.; Samori, P.; Palermo, V. Facile Covalent Functionalization of Graphene Oxide Using Microwaves: Bottom-up Development of Functional Graphitic Materials J. Mater. Chem. 2010, 20, 9052-9060
27. Economopoulos, S. P.; Rotas, G.; Miyata, Y.; Shinohara, H.; Tagmatarchis, N. Exfoliation and Chemical Modification Using Microwave Irradiation Affording Highly Functionalized Graphene ACS Nano 2010, 4, 7499-7507
28. Li, Z.; Yao, Y.; Lin, Z.; Moon, K.-S.; Lin, W.; Wong, C. Ultrafast, Dry Microwave Synthesis of Graphene Sheets J. Mater. Chem. 2010, 20, 4781-4783
29. Chen, W.; Yan, L.; Bangal, P. R. Preparation of Graphene by the Rapid and Mild Thermal Reduction of Graphene Oxide Induced by Microwaves Carbon 2010, 48, 1146-1152
30. Wei, T.; Fan, Z.; Luo, G.; Zheng, C.; Xie, D. Rapid and Efficient Method to Prepare Exfoliated Graphite by Microwave Irradiation Carbon 2009, 47, 337-339
31. Park, S.-H.; Bak, S.-M.; Kim, K.-H.; Jegal, J.-P.; Lee, S.-I.; Lee, J.; Kim, K.-B. Solid-State Microwave Irradiation Synthesis of High Quality Graphene Nanosheets under Hydrogen Containing Atmosphere J. Mater. Chem. 2011, 21, 680-686
32. Hummers, W.; Offeman, R. E. Preparation of Graphitic Oxide J. Am. Chem. Soc. 1958, 80, 1339
33. 3 J. Mater. Chem. 2009, 19, 2043-2050
34. Schniepp, H. C.; Li, J.-L.; McAllister, M. J.; Sai, H.; Herrera-Alonso, M.; Adamson, D. H.; Prud'homme, R. K.; Car, R.; Saville, D. A.; Aksay, I. A. Functionalized Single Graphene Sheets Derived from Splitting Graphite Oxide J. Phys. Chem. B 2006, 110, 8535-8539
35. McAllister, M. J.; Li, J.-L.; Adamson, D. H.; Schniepp, H. C.; Abdala, A. A.; Liu, J.; Herrera-Alonso, M.; Milius, D. L.; Car, R.; Prud'homme, R. K.; Aksay, I. A. Single Sheet Functionalized Graphene by Oxidation and Thermal Expansion of Graphite Chem. Mater. 2007, 19, 4396-4404
36. Mkhoyan, K. A.; Contryman, A. W.; Silcox, J.; Stewart, D. A.; Eda, G.; Mattevi, C.; Miller, S.; Chhowalla, M. Atomic and Electronic Structure of Graphene-Oxide Nano Lett. 2009, 9, 1058-1063
37. Ferrari, A. C.; Meyer, J. C.; Scardaci, V.; Casiraghi, C.; Lazzeri, M.; Mauri, F.; Piscanec, S.; Jiang, D.; Novoselov, K. S.; Roth, S.; Geim, A. K. Raman Spectrum of Graphene and Graphene Layers Phys. Rev. Lett. 2006, 97, 187401
38. Thomsen, C.; Reich, S. Double Resonant Raman Scattering in Graphite Phys. Rev. Lett. 2000, 85, 5214-5217
39. Saito, R.; Jorio, A.; Souza Filho, A. G.; Dresselhaus, G.; Dresselhaus, M. S.; Pimenta, M. A. Probing Phonon Dispersion Relations of Graphite by Double Resonance Raman Scattering Phys. Rev. Lett. 2001, 88, 27401
40. Guo, B.; Liu, Q.; Chen, E.; Zhu, H.; Fang, L.; Gong, J. Controllable N-Doping of Graphene Nano Lett. 2010, 10, 4975-4980
41. 2 Plasma with an Aluminum Oxide Buffer Layer J. Mater. Chem. C 2014, 2, 933-939
42. Tuinstra, F.; Koenig, J. L. Raman Spectrum of Graphite J. Chem. Phys. 1970, 53, 1126-1130
43. McCulloch, D. G.; Prawer, S.; Hoffman, A. Structural Investigation of Xenon-Ion-Beam-Irradiated Glassy Carbon Phys. Rev. B 1994, 50, 5905-5917
44. Casanovas, J.; Ricart, J. M.; Rubio, J.; Illas, F.; Jiménez- Mateos, J. M. Origin of the Large N 1s Binding Energy in X-ray Photoelectron Spectra of Calcined Carbonaceous Materials J. Am. Chem. Soc. 1996, 118, 8071-8076
45. Arrigo, R.; Hävecker, M.; Wrabetz, S.; Blume, R.; Lerch, M.; McGregor, J.; Parrott, E. P. J.; Zeitler, J. A.; Gladden, L. F.; Knop-Gericke, A.; Schlögl, R.; Su, D. S. Tuning the Acid/Base Properties of Nanocarbons by Functionalization via Amination J. Am. Chem. Soc. 2010, 132, 9616-9630
46. Deng, D.; Pan, X.; Yu, L.; Cui, Y.; Jiang, Y.; Qi, J.; Li, W.-X.; Fu, Q.; Ma, X.; Xue, Q.; Sun, G.; Bao, X. Toward N-Doped Graphene via Solvothermal Synthesis Chem. Mater. 2011, 23, 1188-1193
47. Xu, J.; Wang, K.; Zu, S.-Z.; Han, B.-H.; Wei, Z. Hierarchical Nanocomposites of Polyaniline Nanowire Arrays on Graphene Oxide Sheets with Synergistic Effect for Energy Storage ACS Nano 2010, 4, 5019-5026
48. 2/Poly(3,4-ethylenedioxythiophene) Composite Nanotubes for Supercapacitors Phys. Chem. Chem. Phys. 2010, 12, 4309-4316
49. Hulicova-Jurcakova, D.; Seredych, M.; Lu, G. Q.; Bandosz, T. J. Combined Effect of Nitrogen- and Oxygen-Containing Functional Groups of Microporous Activated Carbon on its Electrochemical Performance in Supercapacitors Adv. Funct. Mater. 2009, 19, 438-447
50. Zhu, H.; Wang, X.; Yang, F.; Yang, X. Promising Carbons for Supercapacitors Derived from Fungi Adv. Mater. 2011, 23, 2745-2748