A simple CaCO3-assisted template carbonization method for producing nitrogen-containing nanoporous carbon spheres and its electrochemical improvement by the nitridation of azodicarbonamide

Electrochimica Acta

Volumn 155, Issue , 2015, Pages 93-102

  Xiao, Zheng Hui ^a   Zhu, Yan Qi ^a   Yi, Hai Tao ^a   Chen, Xiang Ying ^a  

^a HEFEI UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Carbonization; Diphenylguanidine; Nanoporous carbon; Supercapacitor; Template

Indexed keywords

AMORPHOUS MATERIALS; CALCIUM CARBONATE; CAPACITANCE; CAPACITORS; CARBON; CARBONIZATION; NITROGEN; SPECIFIC SURFACE AREA; SPHERES;

CHARGE/DISCHARGE CYCLE; DIPHENYLGUANIDINE; ELECTROCHEMICAL PERFORMANCE; GRAPHITIZATION DEGREE; HIGH SPECIFIC CAPACITANCES; NANOPOROUS CARBONS; SUPER CAPACITOR; TEMPLATE;

AMORPHOUS CARBON;

EID: 84920742374     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2014.12.104     Document Type: Article

References (35)

1. Y. Zhai, Y. Dou, D. Zhao, P.F. Fulvio, R.T. Mayes, S. Dai, Carbon materials for chemical capacitive energy storage, Adv. Mater. 23 (2011) 4828-4850.
2. M. Inagakia, H. Konno, O. Tanaike, Carbon materials for electrochemical capacitors, J. Power Sources 195 (2010) 7880-7903.
3. E. Frackowiak, Carbon materials for supercapacitor application, Phys. Chem. Chem. Phys. 9 (2007) 1774-1785.
4. H. Nishihara, T. Kyotani, Templated nanocarbons for energy storage, Adv. Mater. 24 (2012) 4473-4498.
5. T. Kyotani, N. Sonobe, A. Tomita, Formation of highly orientated graphite from polyacrylonitrile by using a two-dimensional space between montmorillonite lamellae, Nature 331 (1988) 331-333.
6. N.D. Petkovich, A. Stein, Controlling macro- and mesostructures with hierarchical porosity through combined hard and soft templating, Chem. Soc. Rev. 42 (2013) 3721-3739.
7. T. Kyotani, Z. Ma, A. Tomita, Template synthesis of novel porous carbons using various types of zeolites, Carbon 41 (2003) 1451-1459.
8. H. Itoi, H. Nishihara, T. Kogure, T. Kyotani, Three-dimensionally arrayed and mutually connected 1.2-nm nanopores for high-performance electric double layer capacitor, J. Am. Chem. Soc. 133 (2011) 1165-1167.
9. R. Ryoo, S.H. Joo, M. Kruk, M. Jaroniec, Ordered mesoporous carbons, Adv. Mater. 13 (2001) 677-681.
10. Q. Wang, J. Yan, T. Wei, J. Feng, Y. Ren, Z. Fan, M. Zhang, X. Jing, Two-dimensional mesoporous carbon sheet-like framework material for high-rate supercapacitors, Carbon 60 (2013) 481-487.
11. Y. Xia, Z. Yang, R. Mokaya, Templated nanoscale porous carbons, Nanoscale 2 (2010) 639-659.
12. D.W. Wang, F. Li, M. Liu, G.Q. Lu, H.M. Cheng, 3D aperiodic hierarchical porous graphitic carbon material for high-rate electrochemical capacitive energy storage, Angew. Chem. Int. Ed. 47 (2008) 373-376.
13. T. Morishita, T. Tsumura, M. Toyoda, J. Przepiórski, A.W. Morawski, H. Konno, M. Inagaki, A review of the control of pore structure in MgO-templated nanoporous carbons, Carbon 48 (2010) 2690-2707.
14. 3 as hard template for creation of intracrystal pores within silicalite-1 crystal, Chem. Mater. 20 (2008) 1134-1139.
15. 3 as template, Carbon 48 (2010) 2361-2380.
16. B. Xu, S. Hou, F. Zhang, G. Cao, M. Chu, Y. Yang, Nitrogen-doped mesoporous carbon derived from biopolymer as electrode material for supercapacitors, J. Electroanal. Chem 712 (2014) 146-150.
17. 3as template, J Solid State Electrochem 17 (2013) 2651-2660.
18. 3as template, graphitization catalyst, and activating agent, Carbon 50 (2012) 3753-3765.
19. W. Shen, W. Fan, Nitrogen-containing porous carbons: synthesis and application, J. Mater. Chem. A 1 (2013) 999-1013.
20. D.W. Wang, F. Li, L.C. Yin, X. Lu, Z.G. Chen, I.R. Gentle, G.Q. Lu, H.M. Cheng, Nitrogen-doped carbon monolith for alkaline supercapacitors and understanding nitrogen-induced redox transitions, Chem. Eur. J. 18 (2012) 5345-5351.
21. K.N. Wood, R. O'Hayre, S. Pylypenko, Recent progress on nitrogen/carbon structures designed for use in energy and sustainability applications, Energy Environ. Sci. 7 (2014) 1212-1249.
22. P.K. Chu, L. Li, Characterization of amorphous and nanocrystalline carbon films, Mater. Chem. Phys. 96 (2006) 253-277.
23. A. Sadezky, H. Muckenhuber, H. Grothe, R. Niessner, U. Pöschl, Raman microspectroscopy of soot and related carbonaceous materials: Spectral analysis and structural information, Carbon 43 (2005) 1731-1742.
24. Y. Zhu, S. Murali, M.D. Stoller, K.J. Ganesh, W. Cai, P.J. Ferreira, A. Pirkle, R.M. Wallace, K.A. Cychosz, M. Thommes, D. Su, E.A. Stach, R.S. Ruoff, Carbon-based supercapacitors produced by activation of graphene, Science 332 (2011) 1531-1537.
25. T. Horikawa, N. Sakao, T. Sekida, J. Hayashi, D.D. Do, M. Katoh, Preparation of nitrogen-doped porous carbon by ammonia gas treatment and the effects of N-doping on water adsorption, Carbon 50 (2012) 1833-1842.
26. 2 capture, Carbon 46 (2008) 1464-1474.
27. V. Datsyuk, M. Kalyva, K. Papagelis, J. Parthenios, D. Tasis, A. Siokou, I. Kallitsis, C. Galiotis, Chemical oxidation of multiwalled carbon nanotubes, Carbon 46 (2008) 833-840.
28. T.I.T. Okpalugo, P. Papakonstantinou, H. Murphy, J. McLaughlin, N.M.D. Brown, High resolution XPS characterization of chemical functionalized MWCNTs and SWCNTs, Carbon 43 (2005) 153-161.
29. J.A. Reyes-Labarta, A. Marcilla, Kinetic study of the decompositions involved in the thermal degradation of commercial azodicarbonamide, Journal of Applied Polymer Science 107 (2008) 339-346.
30. D. Hulicova, M. Kodama, H. Hatori, Electrochemical performance of nitrogenenriched carbons in aqueous and non-aqueous supercapacitors, Chem. Mater. 18 (2006) 2318-2326.
31. 4 nanoparticles on carbon cloth for high performance flexible supercapacitors, J. Mater. Chem. A 2 (2014) 10889-10894.
32. M.D. Stoller, S. Park, Y. Zhu, J. An, R.S. Ruoff, Graphene-based ultracapacitors, Nano Lett. 8 (2008) 3498-3502.
33. 2 composite electrodes for supercapacitors, Carbon 49 (2011) 2917-2925.
34. F. Lufrano, P. Staiti, Mesoporous carbon materials as electrodes for electrochemical supercapacitors, Int. J. Electrochem. Sci. 5 (2010) 903-916.
35. Y. Wang, Z. Shi, Y. Huang, Y. Ma, C. Wang, M. Chen, Y. Chen, Supercapacitor devices based on graphene materials, J. Phys. Chem. C 113 (2009) 13103-13107.