Nitrogen-doped graphene for supercapacitor with long-term electrochemical stability

Energy

Volumn 70, Issue , 2014, Pages 612-617

  Wang, Kai ^a   Li, Liwei ^a   Zhang, Tiezhu ^a   Liu, Zaifei ^b  

^a QINGDAO UNIVERSITY   (China)

^b Heze Power Supply Company   (China)

Author keywords

Ethylenediamine; Functionalization; Microwave; Supercapacitor

Indexed keywords

CAPACITORS; DOPING (ADDITIVES); MICROWAVES; NITROGEN; SILVER;

ELECTROCHEMICAL STABILITIES; ETHYLENE DIAMINE; FUNCTIONALIZATIONS; HIGH CURRENT DENSITIES; HIGH SPECIFIC CAPACITANCES; NITROGEN-DOPED GRAPHENE; NITROGEN-DOPED GRAPHENE NANOSHEETS; SUPER CAPACITOR;

GRAPHENE;

AQUEOUS SOLUTION; CARBON; ELECTROKINESIS; ELECTROLYTE; LONG-TERM CHANGE; MICROWAVE RADIATION; NITROGEN;

EID: 84901670162     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2014.04.034     Document Type: Article

References (30)

1. Kakaei Karim, Gharibi Hussien Palladium nanoparticle catalysts synthesis on graphene in sodium dodecyl sulfate for oxygen reduction reaction. Energy 2014, 65:166-171.
2. Kalamse V., Wadnerkar N., Chaudhari A. Multi-functionalized naphthalene complexes for hydrogen storage. Energy 2013, 49:469-474.
3. Jhan J.Y., Huang Y., Hsu C.H., Teng H., Kuo D., Kuo P.L. Three-dimensional network of graphene grown with carbon nanotubes as carbon support for fuel cells. Energy 2013, 53:282-287.
4. Gao W., Alemany L.B., Ci L., Ajayan P.M. New insights into the structure and reduction of graphite oxide. Nat Chem 2009, 1:403-408.
5. Hu H., Zhao Z., Zhang R., Bin Y., Qiu J. Polymer casting of ultralight graphene aerogels for the production of conductive nanocomposites with low filling content. JMater Chem A 2014, 2:3756-3760.
6. 4 hierarchical structures for high-performance supercapacitors. Energy Environ Sci 2013, 6:3619-3626.
7. 4 stacked nanosheets with gel electrolyte. Energy 2013, 51:407-412.
8. Xu S.J., Yong L., Wu P.Y. Synthesis of metal nanoparticle@graphene hydrogel composites by substrate-enhanced electroless deposition and their application in electrochemical sensors. ACS Appl Mater Interfaces 2013, 5:654-662.
9. Mehrali M., Latibari S.T., Mehrali M., Indra Mahlia T.M., Cornelis Metselaara H.S. Preparation and properties of highly conductive palmitic acid/graphene oxide composites as thermal energy storage materials. Energy 2013, 58:628-634.
10. Zhao J., Pang H., Deng J., Ma Y., Yan B., Li X., et al. Mesoporous uniform ammonium nickel phosphate hydrate nanostructures as high performance of electrode materials for supercapacitors. CrystEngComm 2013, 13:5950-5955.
11. Frackowiak E., Béguin F. Carbon materials for the electrochemical storage of energy in capacitors. Carbon 2001, 39:937-950.
12. King J.A., Klimek D.R., Miskioglu I., Odegard G.M. Mechanical properties of graphene nanoplatelet/epoxy composites. JAppl Polym Sci 2013, 128:4217-4223.
13. El Achaby M., Arrakhiz F.Z., Vaudreuil S., Essassi E.M., Qaiss A., Bousmina M. Preparation and characterization of melt-blended graphene nanosheets-poly (vinylidene fluoride) nanocomposites with enhanced properties. JAppl Polym Sci 2013, 127:4697-4707.
14. Bai Y., Rakhi R.B., Chen W., Alshareef H.N. Effect of pH-induced chemical modification of hydrothermally reduced graphene oxide on supercapacitor performance. JPower Sources 2013, 233:313-319.
15. Mahmood N., Zhang C., Hou Y. Nickel sulfide/nitrogen-doped graphene composites: phase-controlled synthesis and high performance anode materials for lithium ion batteries. Small 2013, 9:1-8.
16. Yue G., Wu J., Xiao Y., Lin J., Huang M., Lan Z., et al. Functionalized graphene/poly (3,4-ethylenedioxythiophene): polystyrenesulfonate as counter electrode catalyst for dye-sensitized solar cells. Energy 2013, 54:315-321.
17. Tamilarasan P., Ramaprabhu S. Graphene based all-solid-state supercapacitors with ionic liquid incorporated polyacrylonitrile electrolyte. Energy 2013, 51:374-381.
18. Wang X., Li X., Zhang L., Yoon Y., Weber P.K., Wang H., et al. N-doping of graphene through electrothermal reactions with ammonia. Science 2009, 324:768-771.
19. Chen X.Y., Chen C., Zhang Z.J., Xie D.H., Deng X., Liu J.W. Nitrogen-doped porous carbon for supercapacitor with long-term electrochemical stability. JPower Sources 2013, 230:50-58.
20. Fuhrer M.S. Graphene: ribbons piece-by-piece. Nat Mater 2010, 9:611-612.
21. Sheng Z.H., Shao L., Chen J.J., Bao W.J., Wang F.B., Xia X.H. Catalyst-free synthesis of nitrogen-doped graphene via thermal annealing graphite oxide with melamine and its excellent electrocatalysis. ACS Nano 2011, 5:4350-4358.
22. Compton O.C., Dikin D.A., Putz K.W., Brinson L.C., Nguyen S.T. Electrically conductive "alkylated" graphene paper via chemical reduction of amine-functionalized graphene oxide paper. Adv Mater 2010, 22:892-896.
23. Che J., Shen L., Xiao Y.J. Anew approach to fabricate graphene nanosheets in organic medium: combination of reduction and dispersion. JMater Chem 2010, 20:1722-1727.
24. Hu H., Zhao Z., Zhou Q., Gogotsi Y., Qiu J. The role of microwave absorption on the formation of graphene from graphite oxide. Carbon 2012, 50:3267-3273.
25. Hu H., Zhao Z., Wan W., Gogotsi Y., Qiu J. Ultralight and highly compressible graphene aerogels. Adv Mater 2013, 25:2219-2223.
26. 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.
27. Zhu Y., Murali S., Stoller M.D., Velamakanni A., Piner R.D., Ruoff R.S. Microwave assisted exfoliation and reduction of graphite oxide for ultracapacitors. Carbon 2010, 48:2118-2122.
28. Wang Y., Shi Z., Huang Y., Ma Y., Wang C., Chen M. Supercapacitor devices based on graphene materials. JMater Chem C 2009, 113:13103-13107.
29. Lin Z., Liu Y., Yao Y., Hildreth O.J., Li Z., Moon K. Superior capacitance of functionalized graphene. JMater Chem C 2011, 115:7120-7125.
30. Zhao B., Liu P., Jiang Y., Pan D., Tao H., Song J., et al. Supercapacitor performances of thermally reduced graphene oxide. JPower Sources 2012, 198:423-427.