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2014 | 8 | 51-60

Article title

Superkondensatory i ich zastosowanie

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PL

Abstracts

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Contributors

  • Instytut Chemii i Elektrochemii Technicznej, Wydział Technologii Chemicznej, Politechnika Poznańska, ul. Piotrowo 3,60-965 Poznań

References

  • 1. A. Burke „Ultracapacitor technologies and application in hybrid and electric vehicles” In-ternational Journal of Energy Research 34 (2010) 133.
  • 2. J.R. Miller, A. Burke „Electrochemical capaci-tors: Challenges and opportunities for real-world applications” Electrochemical Society Interface 17 (2008) 53.
  • 3. A. Burke „R&D considerations for the perfor-mance and application of electrochemical capaci-tors” Electrochimica Acta 53 (2007) 1083.
  • 4. B.E. Conway Electrochemical Supercapacitors – scientific fundamentals and technological ap-plications, Kluwer Academic/Plenum, New York (1999).
  • 5. Carbons for Electrochemical Energy Storage and Conversion Systems eds. F. Béguin,
  • E. Frąckowiak, CRC Press, USA (2010).
  • 6. Supercapacitors: Materials, Systems, Applica-tions eds. F. Béguin, E. Frąckowiak, Wiley-VCH, Weinheim, Germany (2013).
  • 7. E. Frackowiak, F. Béguin „Carbon materials for the electrochemical storage of energy in capaci-tors” Carbon 39 (2001) 937.
  • 8. E. Frackowiak, F. Béguin „Electrochemical storage of energy in carbon nanotubes and nanostructured carbons” Carbon 40 (2002) 1775.
  • 9. E. Frackowiak „Carbon materials for superca-pacitor application” Physical Chemistry Chemi-cal Physics 9 (2007) 1774.
  • 10. K. Kierzek, E. Frackowiak, G. Lota,
  • G. Gryglewicz, J. Machnikowski „Electrochemical capacitors based on highly porous carbons pre-pared by KOH activation” Electrochimica Acta 49 (2004) 515.
  • 11. C. Vix-Guterl, S. Saadallah, K. Jurewicz,
  • E. Frackowiak, M. Reda, J. Parmentier, J. Patarin, F. Béguin „Supercapacitor electrodes from new ordered porous carbon materials obtained by a templating procedure” Materials Science & Engi-neering B 108 (2004) 148.
  • 12. K. Jurewicz, C. Vix-Guterl, E. Frackowiak,
  • S. Saadallah, M. Reda, J. Parmentier, J. Patarin,
  • F. Béguin „Capacitance properties of ordered porous carbon materials prepared by a templat-ing procedure” Journal of Physics and Chemistry of Solids 65 (2004) 287.
  • 13. C. Ania, V. Khomenko, E. Raymundo-Pinero, J.B. Para, F. Béguin „The large electrochemical performance of microporous doped carbon ob-tained by using a zeolite template” Advanced Functional Materials 17 (2007) 1828.
  • 14. E. Frackowiak, K. Jurewicz, S. Delpeux,
  • F. Béguin „Nanotubular materials for supercapac-itors”Journal of Power Sources 97-98 (2001) 822.
  • 15. K. Jurewicz, S. Delpeux, V. Bertagna,
  • F. Béguin, E. Frackowiak „Supercapacitors from nanotubes/polypyrrole composites” Chemical Physics Letters 347 (2001) 36.
  • 16. V. Khomenko, E. Frackowiak, F. Béguin „De-termination of the specific capacitance of con-ducting polymer/nanotubes composite elec-trodes using different cell configurations” Elec-trochimica Acta 50 (2005) 2499.
  • 17. E. Raymundo-Pinero, V. Khomenko,
  • E. Frackowiak, F. Béguin „Performance of man-ganese oxide/CNTs composites as electrode materials for electrochemical capacitors” Journal of the Electrochemical Society 152 (2005) A229.
  • 18. G. Lota, K. Lota, E. Frackowiak „Nanotubes based composites rich in nitrogen for superca-pacitor application” Electrochemistry Communi-cations 9 (2007) 1828.
  • 19. G. Lota, K. Fic, E. Frackowiak „Carbon nano-tubes and their composites in electrochemical applications” Energy & Environmental Science 4 (2011) 1592.
  • 20. E. Frackowiak, G. Lota, J. Pernak „Room-temperature phosphonium ionic liquids for su-percapacitor application” Applied Physics Letters 86 (2005) 164104 1.
  • 21. G. Lota, E. Frackowiak „Striking capacitance of carbon/iodide interface” Electrochemistry Communications 11 (2009) 87.
  • 22. G. Lota, K. Fic, E. Frackowiak „Alkali metal iodide/carbon interface as a source of pseudo-capacitance” Electrochemistry Communications 13 (2011) 38.
  • 23. E. Frąckowiak, K. Fic, M. Meller, G. Lota „Electrochemistry serving people and nature: high-energy ecocapacitors based on redox-active electrolytes” ChemSusChem 7 (2012) 1181.
  • 24. L. Demarconnay, E. Raymundo-Piñero,
  • F. Béguin „A symmetric carbon/carbon superca-pacitor operating at 1.6 V by using a neutral aqueous solution” Electrochemistry Communica-tions 12 (2010) 1275.
  • 25. K. Fic, G. Lota, M. Meller, E. Frąckowiak „Novel insight into neutral medium as electrolyte for high-voltage supercapacitors” Energy & Envi-ronmental Science 5 (2012) 5842.
  • 26. K. Fic, E. Frąckowiak, F. Béguin „Unusual energy enhancement in carbon-based electro-chemical capacitors” Journal of Materials Chem-istry 22 (2012) 24213.
  • 27. S.H. Lee, J.C. Rasaiah „Molecular Dynamics Simulation of Ion Mobility. 2. Alkali metal and halide ions using the SPC/E model for water at 25 °C” Journal of Physical Chemistry 100 (1996) 1420.
  • 28. W.R. Cannon, B.M. Pettitt, J.A. McCammon „Sulfate Anion in Water: Model Structural, Ther-modynamic and Dynamic Properties” Journal of Physical Chemistry 98 (1994) 6225.
  • 29. Q.T. Qu, B. Wang, L.C. Yang, Y. Shi, S. Tian, Y.P. Wu „Study on electrochemical performance of activated carbon in aqueous Li2SO4, Na2SO4 and K2SO4 electrolytes” Electrochemistry Communi-cations 10 (2008) 1652.
  • 30. J.R. Miller, P. Simon „Electrochemical capaci-tors for energy management” Science 321 (2008) 651.

Document Type

article

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YADDA identifier

bwmeta1.element.psjd-2920af1c-8498-4810-b816-a62631bbb43e
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