ХІМІЯ, ФІЗИКА ТА ТЕХНОЛОГІЯ ПОВЕРХНІ

ISSN 2518-1238 (Online), ISSN 2079-1704 (Print)

Стаття присвячена квантово-хімічному розгляду двох аспектів наномедицини фулерену, які стосуються його оксидативної та антиоксидативної функцій. Перший аспект розглянуто по відношенню до фотодинамічного терапевтичного ефекту розчинів фулерену. Запропоновано новий механізм цього ефекту. Другий аспект обговорюється на прикладі двох комплексів фулерену з кремнеземом: фулеросилу та фулеросилікагелю.

Piotrovski L.B. Biological activity of pristine fullerene C60 // Carbon Nanotechnology: Recent Developments in Chemistry, Physics, Materials Science and Device Applications / Ed. L. Dai. – Amsterdam: Elsevier, 2006. – P. 235–253.

Piotrovski L.B., Kiselev O.I. Fullerenes in Biology. – St. Petersburg: Rostok, 2006. – 336 p. (in Russian).

Da Ros T. Twenty years of promises: fullerene in medicinal chemistry / Medicinal Chemistry and Pharmacological Potential of Fullerenes and Carbon Nanotubes / Eds. F. Cataldo, T. Da Ros. – Berlin: Springer, 2008. – P. 1–21.

Jensen A.W., Wilson S.R., Schuster D.I. Biological application of fullerenes // Bioorg. Med. Chem. – 1996. – V. 4. – P. 767–779.

Bianco A., Da Ros T., Prato M., Toniolo C. Fullerene-based amino acids and peptides // J. Pept. Sci. – 2001. – V. 7. – P. 208–219.

Piotrovski L.B., Kiselev O.I. Fullerenes and viruses // Fullerenes Nanotubes Carbon Nanostr. – 2004. – V. 12, N 1–2. – P. 397–403.

Maeda-Mamiya R., Noiri E., Isobe H. et al. In vivo gene delivery by cationic tetraamino fullerene // Proc. Nat. Acad. Sci. USA. – 2010. – V. 107. – P. 5339–5344.

Sheka E.F. Nanoscience of Fullerene: Nanochemistry, Nanomedicine, Nanophotonics, and Nanomagnetism. – Boca Raton: Taylor&Francis, 2010. – 328 p.

Krusic P.J., Wasserman P.N., Keiser P.N. et al. Radical reaction of C60 // Science. – 1991. – V. 254. – P. 1183–1185.

Morton J.R., Negri F., Preston K.F. Addition of free radicals to C60 // Acc. Chem. Res. – 1998. – V. 31, N 2. – P. 61–69.

Wang I.C., Tai L.A., Lee D.D. et al. C60 and water-soluble fullerene derivatives as antioxidant against radical-initiated lipid peroxidation // J. Med. Chem. – 1999. – V. 42, N 22. – P. 4614–4620.

Chabri N., Pressac M., Hadchouel M. et al. [60] Fullerene is an in vivo powerful antioxidant with no acute or sub-acute toxicity // Nano Lett. – 2005. – V. 5, N 12, P. 2578–2585.

Sheka E.F. Stepwise computational synthesis of fullerene C60 derivatives. 1. Fluorinated fullerenes C60F2k. – 2009. – arXiv:0904.4893v1 [cond-mat.mes-hall]. – P. 1–33.

Sheka E.F. Stepwise computational synthesis of fullerene C60 derivatives 2. Hydrogenated fullerenes from C60 to C60H60. – 2009. – arXiv:0906.2443 [cond.-mat. mes-hall]. – P. 1–14.

Sheka E.F. Spin flip in oxygen molecule under photoexcitation of photodynamic fullerene solutions. – 2010. – arXiv:1005.2383v1 [cond.-mat. mes-hall].

Kasermann F., Kempf C. Photodynamic inactivation of enveloped viruses by buckminsterfullerene // Antiviral Res. – 1997. – V. 34, N 1. – P. 65–70.

Kasermann F., Kempf C. Buckminsterfullerene and photodynamic inactivation of viruses // Rev. Med. Virol. – 1998. – V. 8. – P. 143–151.

Mroz P., Tegos G.P., Gali H. et al. Fullerenes as photosensitizers in photodynamic therapy // Medicinal Chemistry and Pharmacological Potential of Fullerenes and Carbon Nanotubes / Eds. F. Cataldo, T. Da Ros. – Berlin: Springer, 2008. – P. 79–106.

Beck M.T., Mandi G. Solubility of C60 // Full. Sci. Technol. – 1997. – V. 5. – P. 291–310.

Nath S., Pal H., Palit D.K. et al. Aggregation of fullerene, C60, in benzonitrile // J. Phys. Chem. B. – 1998. – V. 102. – P. 10158–10164.

Andrievski G.V., Klochkov V.K., Karyakin E.L., Mchedlov-Petrossyan N.O. Studies of aqueous colloidal solutions of fullerene C60 by electron microscopy // Chem. Phys. Lett. – 1999. – V. 300. – P. 392–396.

Samal S., Geckeler K.E. Unexpected solute aggregation in water on dilution // J. Chem. Soc. Chem. Commun. – 2001. – V. 21. – P. 2224–2225.

Da Ros T., Spalluto G., Prato M. Biological application of fullerene derivatives: a brief overview // Croat. Chem. Acta. – 2001. – V. 74. – P. 743–755.

Pat. 5310669 United States, Int C12M1/40 Fullerene coated surfaces and uses thereof / Richmond R.C., Gibson U.J. – Appl. No. 07/901911, Filed 22.06.1992, Publ. 10.05.1994. – 17 p.

Moussa F., Chretien P., Dubois P. et al. The influence of C60 powders on cultured human leukocytes // Full. Sci. Technol. – 1995. – V. 3. – P. 333–342.

Lyon D.Y., Adams L.K., Folkner J.C., Alvarez P.J.J. Antibacterial activity of fullerene water suspensions: Effects of preparation method and particle size // Environ. Sci. Technol. – 2006. – V. 40. – P. 4360–4366.

Andrievsky G.V., Kosevich M.V., Vovk O.M. et al. On the production of an aqueous colloidal solution of fullerene // J. Chem. Soc. Chem. Commun. – 1995. – V. 12. – P. 1281–1282.

Andersson T., Nilsson K., Sundahl M. et al. C60 embedded in g-cyclodextrin; a water soluble fullerene // J. Chem. Soc. Chem. Commun. – 1992. – P. 604–605.

Yevlampieva N.P., Biryulin Yu.F., Melenevskaya E.Yu. et al. Aggregation of fullerene C60 in N-methylpyrrolidone // Colloid Surf. A. – 2002. – V. 209. – P. 167–171.

Sheka E.F., Khavryuchenko V.D., Markichev I.V. Technological polymorphism of disperse silicas: inelastic neutron scattering and computer modelling // Russ. Chem. Rev. – 1995. – V. 64. P. 389–414.

Medicinal Chemistry and Clinical Application of Silicon Dioxide / Ed. A.A. Chuiko. – Kiev: Naukova dumka, 2003. – 415 p. (in Russian).

Sheka E.F. Fullerene–silica complexes for medical chemistry // Russ. J. Phys. Chem. – 2007. – V. 81. – P. 959–966.

Iler R.K. The Chemistry of Silica: Solubility, Polymerization, Colloid and Surface Properties, and Biochemistry of Silica. – New York: Interscience, 1979. – 866 p.

Silics: a Bioregulating Enterosorbent. Properties and Clinical Applications / Ed. A.A. Chuiko. – Kiev: Biofarma, 2003. – 415 p. (in Ukrainian).

Chuiko A.A., Pentyuk A.A. Composites of silica with drugs // Proc. Scientific Session of the Chemical Department of the National Academy of Science of Ukraine. – Kharkov: Osnova, 1998. – P. 35–52. (in Ukrainian).

Podosenova N.G., Sedov V.M., Andozhskaya Yu.S., Kuznetsov A.S. Adsorption of low density lipoproteins // Russ. J. Phys. Chem. – 1997. – V. 71. – P. 1315–1318.

Podosenova N.G., Sedov V.M., Kuznetsov A.S., Knyazev A.S. New sorbents for electron-exchange adsorption of low-density lipoproteins // Russ. J. Phys. Chem. – 1999. – V. 73. – P. 97–100.

Podosenova N.G., Sedov V.M., Sharo­nova L.V., Drichko N.V. Fullerene effects on the adsorption properties of silica gel with respect to low-density lipoproteins // Russ. J. Phys. Chem. – 2001. – V. 75. – P. 1871–1875.

Sedov V.M., Podosenova N.G., Kuznetsov A.S. Oxidation of low-density lipoproteins in the presence of a fullerene-containing silica gel // Kinet. Catal. – 2002. – V. 43. – P. 56–60.

Davydov V.Y., Sheppard N., Osawa E. An infrared spectroscopic study of the hydrogenation and dehydrogenation of the complexes of aromatic compounds and of fullerene C60 with silica-supported platinum // J. Catal. – 2002. – V. 211. P. 42–52.

Piwonski I., Zajac J., Jones D.J. et al. Adsorption of [60] fullerene from toluene solutions on MCM-41 silica: a flow microcalorimetric study // Langmuir. – 2000. – V. 16 – P. 9488–9492.

Brei V.V. Hydroxils accommodation on silica surface // Chemistry, Physics and Technology of Surface. – 1993. – N 1. – P. 75–83. (in Russian).

Sheka E., Khavryutchenko V., Nikitina E. From molecule to particle. Quantum-chemical view applied to fumed silica // J. Nanopart. Res. – 1999. – V. 1. – P. 71–81.

Sheka E.F. Intermolecular interaction and vibrational spectra at fumed silica particles/silicone polymer interface // J. Nanopart. Res. – 2003. – V. 5. – P. 419–437.

Nikitina E.A., Khavryutchenko V.D., Sheka E.F. et al. Deformation of poly (dimethylsiloxane) oligomers under uniaxial tension. Quantum-chemical view // J. Phys. Chem. A. – 1999. – V. 103. – P. 11355–11365.

Brinker C.J., Keefer K.D., Schaefer D.W., Ashley C.S. Sol-gel transition in simple silicates // J. Non-Cryst. Solids. – 1982. – V. 48. – P. 47–64.

Burlakova E.B. Specific effects of superlow doses of biologically active substances and low-level physical factors // Misaha Newsletter. – 2000. – V. 30–31. – P. 2–10.

Wang I.C., Tai L.A., Lee D.D. et al. C60 and water-soluble fullerene derivatives as antioxidants against radical-initiated lipid peroxidation // J. Med. Chem. – 1999. – V. 42. – P. 4614–4620.

Andrievsky G., Klochkov V., Bordyuh A., Dovbeshko G. Comparative analysis of two aqueous-colloidal solutions of C60 fullerene with help of Ft-IR reflectance and UV-Vis spectroscopy // Chem. Phys. Lett. – 2002. – V. 364. – P. 8–17.

Andrievsky G., Klochkov V., Derevyanchenko L. Is C60 fullerene molecule toxic?! // Fullerenes Nanotubes Carbon Nanostruct. – 2005. – V. 13. – P. 363–376.

Andrievsky G.V., Bruskov V.I., Tykhomyrov A.A., Gudkov S.V. Peculiarities of the antioxidant and radioprotective effects of hydrated C60 fullerene nanostuctures in vitro and in vivo // Free Rad. Biol. Med. – 2009. – V. 47. – P. 786–793