Paper

New J. Chem., 2009, 33, 2261 - 2266, DOI: 10.1039/b9nj00338j

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Photoinduced electron transfer of nanohybrids of carbon nanohorns with amino groups and tetrabenzoic acid porphyrin in aqueous media

Atula S. D. Sandanayaka, Osamu Ito, Takatsugu Tanaka, Hiroyuki Isobe, Eiichi Nakamura, Masako Yudasaka and Sumio Iijima

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Amino carbon nanohorns (CNH–NH₂) are covalently and non-covalently functionalized with tetrabenzoic acid porphyrin (H₂P(CO₂H)₄) forming dispersible nanohybrids in aqueous solution; the nanohybrids are characterized by spectroscopy and electron microscopy. Photoinduced electron-transfer processes of the nanohybrids of carbon nanohorns in aqueous solution are revealed with time-resolved absorption and fluorescence measurements. From the observed fluorescence quenching of the H₂P(CO₂H)₄ moieties by CNH–NH₂, charge separation via the excited singlet state of the H₂P moieties, generating radical cations localized in the H₂P moieties and electrons trapped in CNH, is suggested. In the presence of methylviologen dication (MV²⁺) and a hole-shifting reagent, electron pooling is observed by the light-illumination of the H₂P(CO₂H)₄ moieties in CNH–NH₂ nanohybrids, suggesting that the electron generated by the charge-separation migrates to MV²⁺ in aqueous solution.

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