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Silicon Versus Carbon pp 379–396Cite as

Application of Fulleroid Nano-Carbon In Sorption Techniques

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In the review article two main courses of application of the fullerene containing materials in sorption technology are examined. The first course is represented by nano-porous materials based on the fullerene soot, molded with various bonding materials. The second one is connected with modifying of traditional sorbents, such as active carbon, silica gel, zeolite, hopkalite and ion exchange resins with micro quantities of nano-carbon submitted by fullerenes, which provides for considerable improvement of sorption properties. Application of fulleroid nano-carbon in sorption techniques does not lead to increase of biological risks.

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References

  1. Kerl, R.F., Smolly, R.E.: Fullerenes. In the World of Science. 12, 14–24 (1991)

    Google Scholar 

  2. Masterov, V.F.: Fullerenes Physic Properties. Educational Magazine of Sorov. 1, 92 (1997)

    Google Scholar 

  3. Tarasov, B.P.: Hydrogen Accumulation by Fullerenes. Perspective Technologies. 7, 12, 3–5 (2000)

    Google Scholar 

  4. Tarasov, B.P., Fokin, V.N., Moravskiy, A.P., Shulga, Yu.M.: Fullerene-Intermetallide-Hydrogen System Metamorphoses. Inorganic Chemistry Magazine. 42, 6, 920–922 (1997)

    CAS  Google Scholar 

  5. Belousov, V.P., Budtov, V.P., Danilov, O.B., Mak, A.A.: Fullerenes: structural, physicochemical, and nonlinear-optical properties. Journal of Optical Technology. 64, 12, 1081–1109 (1997)

    Google Scholar 

  6. Voule, A.Ya.: Fullerenes as Materials for Electronic Technics. Materials of Electronic Technics. 3, 4–7 (1999)

    Google Scholar 

  7. Syrenskiy, A.V., Galagudza, M.M., Egorova, E.I.: Fullerene Derivates Cardiovascular Effects Studies Background (literature review). Arterial Hypertension. 10, 3 (2004)

    Google Scholar 

  8. Samonin, V.V., Slutsker, E.M.: Adsorption Properties of Fullerene Soots with Respect of Variously Natured Adsorbates from Gas Phase. FCM. 79, 1, 100–105 (2005)

    Google Scholar 

  9. Fedorov, N.F., Ivahnyuk, G.K., Samonin, V.V., et al: Connection Between the State of Polymeric System with the Properties of Composite Sorption Materials Basing on Polymeric Matrix. ACM. 64, 5, 1054–1059 (1991)

    Google Scholar 

  10. A. c. (51) 5 B 01 J 20/10. B 01 D 53/02. The Way of Adsorbent Production in the Form of Microcapsules and Blocks/N.F. Fedorov. G.K. Ivahnyuk. V.V. Samonin. M.I. Nilova. M.L. Podvyaznikov. T.O. Drozdova. A.I. Filenko and L.Sh. Malkin — (19)SU(11) 1669537 A1; appl. 03.07.89. publ. 15.08.91.Bull. No. 30

    Google Scholar 

  11. Samonin, V.V., Fedorov, N.F.: To the Point of Basis of Initial Components Selection for Composite Sorption Materials Production According to the Technology of Filled Polymers. ACM. 70, 1, 51–54 (1997)

    CAS  Google Scholar 

  12. Podvyaznikov, M.L., Samonin, V.V., Shevkina, A.Yu., Kudenko, V.V., Spiridonova, E.A.: Molding of Composite Sorption Materials Basing on Fullerene Soots Using Various Polymeric Systems. Chemical Industry. 83, 4, 167–174 (2006)

    CAS  Google Scholar 

  13. Samonin, V.V., Nikonova, V.Yu., Spiridonova, E.A.: The Influence of Optical Irradiation on the Sorption Properties of Fullerene Materials. Zhurnal Fizicheskoi Khimii. 81, 8, 1276–1280 (2007)

    CAS  Google Scholar 

  14. Sidorov, L.N., Yurovskaya, M.A., Borschevskii, A.Ya.: Fullerenes. Examen, Moscow (2005)

    Google Scholar 

  15. Poonia, N.: Coordination chemistry of sodium and potassium complexation with macrocyclic polyethers. I. Amer Chem. Sol. 96, 4, 1012–1019 (1974)

    Article  CAS  Google Scholar 

  16. Ikeda, A., Hatano, T., Kawaguchi, M., Suenaga, H., Shinkai, S. Water-soluble [60]fullerene-cationic homooxacalix[3]arene complex which is applicable to the photocleavage of DNA Chemical Communications. 1403-1404 (1999)

    Google Scholar 

  17. Samonin, V.V., Nikonova, V.Yu., Podvyaznikov, M.L.: Study of Fullerene Modified Active Carbons Properties with Respect to Metals Ions. Metals Protection. 44, 2, 204–206 (2008)

    Google Scholar 

  18. Samonin, V.V., Podvyaznikov, M.L., Nikonova, V.Yu.: Purification of engine fuel from aromatic compounds with adsorbents modified with fullerenes. Special edition of transactions of International Academy of Science. Natural cataclysms and global problems of the modern civilization. 24–27 September 2007. Baku. 615–620

    Google Scholar 

  19. Stiles, Elvine, B.: Carriers and Applied Catalusts: Theory and Practice. Chemistry, Moscow (1991)

    Google Scholar 

  20. Samonin, V.V., Podvyaznikov, M.L., Nikonova V.Yu.: Fullerene Modificated Sorption Materials. 11th International Seminar — Fair “Russian Industrial Technologies” Thesis. 20–23 November 2007. Saint-Petersburg. A.F. Ioffe PhTI. 22 (2007)

    Google Scholar 

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Authors and Affiliations

  1. Saint Petersburg State Technological Institute (University of Technology), Moscovsky prospect, 26, Saint Petersburg, 190013, Russia

    V. Samonin, M. Podvyaznikov, E. Spiridonova & V. Nikonova

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  1. V. Samonin
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  2. M. Podvyaznikov
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  3. E. Spiridonova
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  4. V. Nikonova
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Editor information

Editors and Affiliations

  1. MathTech, Inc., 2925 West 5th Str., Suite 3E, Brooklyn, NY, 11224, USA

    Yuri Magarshak

  2. Center for Advanced Studies of Saint Petersburg State Polytechnical University, Polytechnicheskaya Str., 29, Saint Petersburg, 194021, Russia

    Sergey Kozyrev

  3. Nanomaterials Processing and Characterization Laboratories, Graduate Program in Physical Sciences, Huntington, WV, USA

    Ashok K. Vaseashta

  4. Institute of Advanced Sciences Convergence, Huntington, VT, USA

    Ashok K. Vaseashta

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Samonin, V., Podvyaznikov, M., Spiridonova, E., Nikonova, V. (2009). Application of Fulleroid Nano-Carbon In Sorption Techniques. In: Magarshak, Y., Kozyrev, S., Vaseashta, A.K. (eds) Silicon Versus Carbon. NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht. https://doi.org/10.1007/978-90-481-2523-4_25

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