"RIV/61388955:_____/10:00334005!RIV10-MSM-61388955" . "Redox potentials and binding enhancement of fullerene and fullerene-cyclodextrin systems in water and dimethylsulfoxide"@en . . "G\u00E1l, Miroslav" . "5"^^ . "Redox potentials and binding enhancement of fullerene and fullerene-cyclodextrin systems in water and dimethylsulfoxide" . . "Zhang, Y." . . "1" . . "284285" . "10"^^ . . . "Rassat, A." . "Yang, J." . . "Filippone, S." . . "Redox potentials and binding enhancement of fullerene and fullerene-cyclodextrin systems in water and dimethylsulfoxide"@en . "Posp\u00ED\u0161il, Lubom\u00EDr" . . "Bul\u00ED\u010Dkov\u00E1, Jana" . . . "RIV/61388955:_____/10:00334005" . "[72EB0B6C78C3]" . "Sokolov\u00E1, Romana" . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "48" . "Guan, Z." . "10"^^ . . . . . "The formal redox potentials of electron transfer reactions of fullerene, methanofullerene, fullerene-cyclodextrin complex and methanofullerene conjugates with cyclodextrins in aqueous and dimethylsulfoxide solutions are reported. These new compounds are surface active and retain the redox activity of C-60 even in aqueous medium. Compounds have been characterized by an electrochemical admittance technique, which offers an advantage of separating faradaic and capacitive properties. Observed difference of formal redox potentials of the free fullerene forms and their cyclodextrin-containing compounds were used to determine the binding enhancement. Results are interpreted in terms of inter-molecular host-guest interactions of C-60-cyclodextrin conjugates." . "Hromadov\u00E1, Magdal\u00E9na" . "0008-6223" . . "P(GA203/08/1157), P(GA203/09/0705), P(GP203/09/P502), P(LC510), P(ME09114), P(OC 140), Z(AV0Z40400503)" . . . . "Carbon" . . . . "electrochemistry; fullerenes; fullerene-cyclodextrin systems"@en . . . "Redox potentials and binding enhancement of fullerene and fullerene-cyclodextrin systems in water and dimethylsulfoxide" . "The formal redox potentials of electron transfer reactions of fullerene, methanofullerene, fullerene-cyclodextrin complex and methanofullerene conjugates with cyclodextrins in aqueous and dimethylsulfoxide solutions are reported. These new compounds are surface active and retain the redox activity of C-60 even in aqueous medium. Compounds have been characterized by an electrochemical admittance technique, which offers an advantage of separating faradaic and capacitive properties. Observed difference of formal redox potentials of the free fullerene forms and their cyclodextrin-containing compounds were used to determine the binding enhancement. Results are interpreted in terms of inter-molecular host-guest interactions of C-60-cyclodextrin conjugates."@en . "000272018800019" . . .