Fullerenes and fullerenols survival under irradiation

Fullerenes C_2n, endometallofullerenes Gd@C_2n, Gd@C₈₂ and water-soluble Gd@C_2n(OH)₃₈₋₄₀ derivatives were synthesized. These substances’ survival dependences on the accumulated flux (10¹⁶ – 10¹⁹ neutron/cm²) of neutron irradiation over a wide spectrum of energies (from thermal to fast) in the WWR-M reactor zone (Petersburg Nuclear Physics Institute) have been examined.

1. Popov A.A., Yang S., Dunsch L. Endohedral Fullerenes. Chem. Rev., 2013, 113(8), P. 5989–6113.

2. Gan L., Yang D., Zhang Q., Huang H. Preparation of open-cage fullerenes and incorporation of small molecules through their orifices. Adv. Mater., 2010, 22, P. 1498–1507.

3. Gan T., Hu C., Hu S. Preparation of graphene oxide-fullerene/phosphotungstic acid films and their application as sensor for the determination of cis-jasmone. Anal. Methods, 2014, 6, P. 9220–9227.

4. Grushko Yu.S., Khodorkovski M.A., Kozlov V.S., Kolesnik S.G., Shilin V.A., Grachev S.A., Artamonova T.O. Radioactive Metallofullerenes: Hot Atom Chemistry Aspects. Fuller., Nanotub. Carbon Nanostr., 2006, 14, P. 249–259.

5. Averbukh V., Cederbaum L.S. Interatomic electronic decay in endohedral fullerenes. Phys. Rev. Lett., 2006, 96, P. 401–405.

6. Sueki K., Akiyama K., Zhao Y. L., Ito I., Ohkubo Y., Kikuchi K., Katada M., Nakahara H. Systematic study of lanthanoid endohedral metallofullerenes: Production yields, HPLC retention time and reactor irradiation effects. J. Radioanalytical Nuclear Chem., 2003, 255(1), P. 159–164.

7. Sueki K., Kikuchi K., Tomura K., Nakahara H. Stability of metallofullerenes following neutron capture reaction on the metal ion. J. Radioanal. Nucl. Chem., 1998, 234, P. 95–100.

8. Sueki K., Akiyama K., Kikuchi K., Nakahara H., Tomura K. Stability of Radio-Metallo-Fullerene against Beta-Decay. J. Radioanal. Nucl. Chem., 1999, 239(1), P. 179–185.

9. Nakahara H., Sueki K., Sato W., Akiyama K. Nuclear reactions and radionuclides in study of fullerenes. J. Radioanal. Nucl. Chem., 2000, 243(1), P. 169–179.

10. Kozlov V.S., Suyasova M.V., Lebedev V.T. Synthesis, Extraction, and Chromatographic Purification of Higher Empty Fullerenes and Endoghedral Gadolinium Metallofullerenes. Russian J. Appl. Chem., 2014, 87(2), P. 121–127.

11. Suyasova M.V., Kozlov V.S. Synthesis and Chromatographic Study of Higher Empty Fullerenes and Endometallofullerenes in solutions. Communication of PNPI 2941. Gatchina, 2014. 20 p. (Rus.).

12. Goswami T.H., Singh R., Alam S., Mathur G.N. Thermal analysis: a unique method to estimate the number of substituents in fullerene derivatives. Thermochimica Acta, 2004, 419, P. 97–104.

13. Grushko Yu.S., Alekseev E.G., V.V. Voronin et. al. Tracer Study of Smx@C2n. Mol. Mat., 2006, 7, P. 115–118.

14. Shilin V.A., Lebedev V.T., Sedov V.P., Szhogina A.A. Fullerenes and their derivatives synthesis and radiation resistance. Crystallography (in press, Rus.).

15. Suenaga K., Iijima S., Kato H., Shinohara H. Fine-structure analysis of Gd M45 near-edge EELS on the valence state of Gd@C82 microcrystals. Phys. Rev. B, 2000, 62(3), P. 1627–1630.

16. Nishibori E., Takata M., Sakata M., Tanaka H., Hasegawa M., Shinohara H. Giant motion of La atom inside C82 cage. Chem. Phys. Lett., 2000, 330, P. 497–502.

17. Nishibori E., Takata M., Sakata M., Inakuma M., Shinohara H. Determination of the cage structure of Sc@C82 by synchrotron powder diffraction. Chem. Phys. Lett., 1998, 298, P. 79–84.

18. Takata M., Imeda B., Nishibori E., Sakata M., Saito Y., Ohno M., Shinohara H. Confirmation by X-ray-diffraction of the Endohedral Nature of the Metallofullerene Y@C82. Nature, 1995, 377, P. 46–49.

19. Nishibori E., Iwata K., Sakata M., Takata M., Tanaka H., Kato H., Shinohara H. Anomalous endohedral structure of Gd@C82 metallofullerenes. Phys. Rev. B, 2004, 69, P. 113412(1-4).

20. Tang J.X., Yuan G.M., Cao H., et. al. Tuning electronic properties of metallic atom in bondage to a nanospace. J. Phys. Chem., 2005, 109, P. 8779–8785.

21. Starke K., Navas E., Arenholz E., Hu Z., Baumgarten L., van der Laan G., Chen C. T., Kaindl G. Magnetic circular dichroism in 4d→4f resonant photoemission and photoabsorption of Gd metal. Phys. Rev. B, 1997, 55, P. 2672–2675.

22. Tobin J.G., Chung B.W., Schulze R.K., Terry J., Farr J. D., Shuh D. K., Heinzelman K., Rotenberg E., Waddill G.D., Van der Laan G. Resonant photoemission in f-electron systems: Pu and Gd. Phys. Rev. B, 2003, 68, P. 115109(1-11).

23. Szhogina A.A., Shilin V.A., Sedov V.P., Lebedev V.T. Endohedral metallofulerenols survival under neutron irradiation. Crystallography (in press, Rus.).

24. Shilin V.A., Lebedev V.T., Kolesnik S.G., Kozlov V.SGrushko., Yu.S., Sedov V.P., Kukorenko V.V. Investigation of the Neutron Activation of Endohedral Rare Earth Metallofullerenes. Crystallography Reports, 2011, 56(7), P. 1192–1196.

25. Okazaki T., Lian Y., Gu Z., Suenaga K., Shinohara H. Isolation and spectroscopic characterization of Sm-containing metallofullerenes. Chem. Phys. Lett., 2000, 320, P. 435–440.