Bis‐ through Tetrakis‐Adducts of C<sub>60</sub> by Reversible Tether‐Directed Remote Functionalization and systematic investigation of the changes in fullerene properties as a function of degree, pattern, and nature of functionalization

Cardullo, Francesca; Seiler, Paul; Isaacs, Lyle; Nierengarten, Jean‐François; Haldimann, Richard F.; Diederich, François; Mordasini-Denti, T.; Thiel, Walter; Boudon, Corinne; Gisselbrecht, Jean‐Paul; Gross, Maurice

doi:10.1002/hlca.19970800203

Cited by 110 publications

(52 citation statements)

References 90 publications

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“…Namely, it is characteristic for T h -symmetric hexakis adducts that due to the reduced conjugation (there are eight isolated benzenoid rings left on the fullerene cage) they demonstrate only minimal absorption in the region of visible light, tailing until 460 nm. 20 Moreover, comparison of spectra of various T h -symmetric hexakis adducts, presented by Diederich 20 and by Lamparth, 21,23, shows a common feature of such spectra: a distinctive local absorption minimum at ≈ 260 nm surrounded by two pronounced absorption peaks, and a shoulder in the region between 320 and 340 nm. Such UV/Vis spectra are typical for all hexakis adducts because of the same conjugation left on the C 60 skeleton, and are almost independent on the type of the addend.…”

Section: Resultsmentioning

confidence: 94%

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Cerar

Cerkovnik

2015

ACSi

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Direct nucleophilic addition of -OH groups on the C 60 skeleton in the basic hydrolysis of ethyl ester of T h -symmetric fullerenehexamalonic acid (T h -FHMA), leading to the formation of a hybrid with features of T h -FHMA and fullerenol, has been observed as an important side reaction. The hydroxylation takes place at considerably milder conditions as those usually used in the synthesis of C 60 fullerenols. UV/Vis and IR spectroscopy were successfully used as a fast monitoring tool which might be of help also in other investigations where additions on C 60 skeleton of molecules with distinct absorption spectra take place.

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Section: Resultsmentioning

confidence: 94%

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Cerar

Cerkovnik

2015

ACSi

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“…[17±19] Complex functional group effects on the spectra have been reported by Cardullo et al [24] for multigrafted C 60 with cyclopropyl-and cyclohexyl-fused functionalization.…”

Section: Resultsmentioning

confidence: 95%

Photophysical Properties of Three Methanofullerene Derivatives

et al. 1998

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The [6,6]-ring bridged methanofullerenes 61,61-bis[4-tert-butylbenzoate]-1,2-dihydro-1,2-methanofullerene [60] (1), 61,61-bis[4-(tert-butyldiphenylsilyloxymethyl)phenyl]-1,2-dihydro-1,2-methanofullerene[60] (2), and 61-[(ethoxycarbonyl)methylcarboxylate]-1,2-dihydro-1,2-methanofullerene[60] (3) were synthesized by the Diederich method (3) or the Wudl method via tosylhydrazone salts (1 and 2). Groundstate absorption spectra of the methanofullerenes in toluene and cyclohexane solutions are presented and possible assignments discussed. The sharp, 430 nm transition is associated with the existence of less than 60 p electrons, whereas a broad band peaking at 495 nm as well as weak features in the 700 nm region could be related to forbidden transitions of C 60 . The allowed transitions of C 60 in the UV region are modified relatively little in the methanofullerenes. Laser flash photolysis and pulse radiolysis techniques were used to obtain triplet ± triplet absorption spectra between 400 and 1100 nm and determine photophysical properties. The three methanofullerenes have very similar T ± T spectra, with a strong peak at 720 nm whose molar absorption coefficient is of the order of 14 000 m ) production by energy transfer from the triplet state of the three methanofullerenes, implying that the quantum yield of triplet production of each is % 1. The results indicate that it is possible for the spectroscopic and photophysical properties of methanofullerenes to vary little with the nature of the methano adduct and to undergo only slight modifications with respect to the corresponding properties of C 60 . Up to now, this has been found valid only when the functionalization does not involve an electron donor. The biological photosensitization efficiencies of these methanofullerenes are therefore expected to be similar to those of C 60 but with their hydrophobicity and intracellular site delivery modulated by the nature of the methano-adduct.

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“…88 In keeping with their delocalized charges, the first oxidation potentials of C 60 , C 70 , C 76 , and C 78 follow the same trend as their first ionization potentials (7.61, 7.58, 7.10, and 7.05 eV, respectively). 89,90 In contrast to reduction, the oxidation of fullerenes typically becomes easier upon derivatization, 59,80,91,92 particularly with bis(silyl) derivatization, 93 but no cations have been characterized.…”

Section: +mentioning

confidence: 99%

Discrete Fulleride Anions and Fullerenium Cations

2000

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His research interests include reactive cation and superacid chemistry with inert carborane counterions, ionic liquids, bioinorganic chemistry, spin-coupling phenomena, fullerene chemistry, and new carbon-or porphyrin-based materials. He is a Sloan Fellow, a Dreyfus Teacher−Scholar Awardee, and a Guggenheim Fellow. Robert Bolskar received his B.S. degree in Chemistry from Carroll College in Waukesha, WI, in 1992. He earned his Ph.D. degree at the University of Southern California in Los Angeles under the direction of Christopher Reed in 1997, investigating the synthetic redox chemistry of fullerene anions and cations. In 1998 he moved to the University of California, Riverside, as Managing Research Associate. He is currently Senior Chemist at TDA Research in Wheat Ridge, CO. His research interests include the chemistry and physics of fullerene compounds, supramolecular chemistry, strongly oxidizing systems, and electrophilic cations.

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Bis‐ through Tetrakis‐Adducts of C₆₀ by Reversible Tether‐Directed Remote Functionalization and systematic investigation of the changes in fullerene properties as a function of degree, pattern, and nature of functionalization

Cited by 110 publications

References 90 publications

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Photophysical Properties of Three Methanofullerene Derivatives

Discrete Fulleride Anions and Fullerenium Cations

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Bis‐ through Tetrakis‐Adducts of C60 by Reversible Tether‐Directed Remote Functionalization and systematic investigation of the changes in fullerene properties as a function of degree, pattern, and nature of functionalization

Cited by 110 publications

References 90 publications

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Basic hydrolysis of fullerene-based esters: a tiny step away from nucleophilic addition to fullerene

Photophysical Properties of Three Methanofullerene Derivatives

Discrete Fulleride Anions and Fullerenium Cations

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Product

Resources

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Bis‐ through Tetrakis‐Adducts of C₆₀ by Reversible Tether‐Directed Remote Functionalization and systematic investigation of the changes in fullerene properties as a function of degree, pattern, and nature of functionalization