Access the full text.
Sign up today, get DeepDyve free for 14 days.
S. Minakata, Yoshinobu Morino, T. Ide, Yoji Oderaotoshi, M. Komatsu (2007)
Direct synthesis of oxazolines from olefins and amides using t-BuOI.Chemical communications, 31
S. Minakata, Sota Okumura, Toshiki Nagamachi, Y. Takeda (2011)
Generation of nitrile oxides from oximes using t-BuOI and their cycloaddition.Organic letters, 13 11
D. Tanner, G. Gidley, N. Das, J. Rowe, A. Potter (1984)
On the structure of tert-butyl hypoioditeJournal of the American Chemical Society, 106
W. Gottardi (1975)
Über die Reaktion von N-Bromverbindungen mit Jod: eine einfache Synthesemethode für N-JodverbindungenMonatshefte für Chemie / Chemical Monthly, 106
M. Prato (1997)
[60]Fullerene chemistry for materials science applicationsJournal of Materials Chemistry, 7
A. Arias, J. MacKenzie, I. McCulloch, J. Rivnay, A. Salleo (2010)
Materials and applications for large area electronics: solution-based approaches.Chemical reviews, 110 1
M. Zheng, Fang‐Fang Li, Ling Ni, Wei-wei Yang, Xiang Gao (2008)
Synthesis and identification of heterocyclic derivatives of fullerene C60: unexpected reaction of anionic C60 with benzonitrile.The Journal of organic chemistry, 73 8
F. Giacalone, N. Martín (2006)
Fullerene polymers: synthesis and properties.Chemical reviews, 106 12
J. Segura, N. Martín, D. Guldi (2005)
Materials for organic solar cells: the C60/pi-conjugated oligomer approach.Chemical Society reviews, 34 1
J. Averdung, J. Mattay, Dirk Jacobi, W. Abraham (1995)
Addition of photochemically generated acylnitrenes to C60. Synthesis of fulleroaziridines and thermal rearrangement to fullerooxazolesTetrahedron, 51
M. Banks, J. Cadogan, I. Gosney, P. Hodgson, P. Langridge-Smith, J. Millar, A. Taylor (1994)
Chemical transformations on the surface of [60]fullerene: Synthesis of [60]fullereno[1′,2′:4,5]oxazolidin-2-oneTetrahedron Letters, 35
D. Bonifazi, Olivier Enger, F. Diederich (2007)
Supramolecular [60]fullerene chemistry on surfaces.Chemical Society reviews, 36 2
N. Martín, L. Sánchez, B. Illescas, Ignacio Pérez (1998)
C(60)-Based Electroactive Organofullerenes.Chemical reviews, 98 7
Zong‐Jun Li, Wei-wei Yang, Xiang Gao (2011)
A room-temperature fluorescence study of organofullerenes: cis-1 bisadduct with unusual blue-shifted emissions.The journal of physical chemistry. A, 115 24
D. Guldi, B. Illescas, C. Atienza, Mateusz Wielopolski, N. Martín (2009)
Fullerene for organic electronics.Chemical Society reviews, 38 6
F. Cheng, Y. Murata, K. Komatsu (2002)
Synthesis, X-ray structure, and properties of the singly bonded C60 dimer having diethoxyphosphorylmethyl groups utilizing the chemistry of C60(2-).Organic letters, 4 15
S. Minakata (2009)
Utilization of N-X bonds in the synthesis of N-heterocycles.Accounts of chemical research, 42 8
R. Ruoff, D. Tse, R. Malhotra, D. Lorents (1993)
Solubility of fullerene (C60) in a variety of solventsThe Journal of Physical Chemistry, 97
Hui‐Lei Hou, Xiang Gao (2012)
Aerobic oxidations of C60(2-) in the presence of PhCN and PhCH2CN: oxygenation versus dehydrogenation reactions.The Journal of organic chemistry, 77 5
K. Itami (2011)
Molecular catalysis for fullerene functionalization.Chemical record, 11 5
R. Tsuruoka, Toshiki Nagamachi, Y. Murakami, M. Komatsu, S. Minakata (2009)
Aziridination of C60 with simple amides and catalytic rearrangement of the aziridinofullerenes to azafulleroids.The Journal of organic chemistry, 74 4
S. Minakata, Yoshinobu Morino, Yoji Oderaotoshi, M. Komatsu (2006)
Novel aziridination of olefins: direct synthesis from sulfonamides using t-BuOI.Chemical communications, 31
B. Thompson, J. Fréchet (2008)
Polymer‐Fulleren‐SolarzellenAngewandte Chemie, 120
Y. Takeda, Sota Okumura, S. Minakata (2012)
Oxidative dimerization of aromatic amines using tBuOI: entry to unsymmetric aromatic azo compounds.Angewandte Chemie, 51 31
D. Guldi, M. Prato (2000)
Excited-State Properties of C60 Fullerene DerivativesChemInform, 32
Alejandro López, Aurelio Mateo‐Alonso, M. Prato (2011)
Materials chemistry of fullerene C60 derivativesJournal of Materials Chemistry, 21
S. Minakata, Yoshinobu Morino, Yoji Oderaotoshi, M. Komatsu (2006)
Practical and convenient synthesis of N-heterocycles: stereoselective cyclization of N-alkenylamides with t-BuOI under neutral conditions.Organic letters, 8 15
Y. Matsuo, E. Nakamura (2008)
Selective multiaddition of organocopper reagents to fullerenes.Chemical reviews, 108 8
F. Li, Tongxin Liu, Guan‐Wu Wang (2008)
Synthesis of fullerooxazoles: novel reactions of [60]fullerene with nitriles promoted by ferric perchlorate.The Journal of organic chemistry, 73 16
N. Martín (2006)
New challenges in fullerene chemistry.Chemical communications, 20
Wei-wei Yang, Zong‐Jun Li, Xiang Gao (2011)
Formation of singly bonded PhCH2C60-C60CH2Ph dimers from 1,2-(PhCH2)HC60 via electroreductive C60-H activation.The Journal of organic chemistry, 76 15
Guan‐Wu Wang, Cong Wang, J. Zou (2011)
Radical reaction of [60]fullerene with phosphorus compounds mediated by manganese(III) acetate.The Journal of organic chemistry, 76 15
J. Bausch, G. Prakash, G. Olah, D. Tse, D. Lorents, Y. Bae, R. Malhotra (1991)
Considered novel aromatic systems. 11. Diamagnetic polyanions of the C60 and C70 fullerenes: preparation, 13C and 7Li NMR spectroscopic observation, and alkylation with methyl iodide to polymethylated fullerenesJournal of the American Chemical Society, 113
S. Minakata, I. Sasaki, T. Ide (2010)
Atmospheric CO2 fixation by unsaturated alcohols using tBuOI under neutral conditions.Angewandte Chemie, 49 7
L. Sánchez, M. Herranz, N. Martín (2005)
C60-based dumbbells: connecting C60 cages through electroactive bridgesJournal of Materials Chemistry, 15
B. Thompson, J. Fréchet (2008)
Polymer-fullerene composite solar cells.Angewandte Chemie, 47 1
F. Brunetti, Rajeev Kumar, F. Wudl (2010)
Organic electronics from perylene to organic photovoltaics: painting a brief history with a broad brushJournal of Materials Chemistry, 20
J. Segura, N. Martín (2000)
[60]Fullerene dimersChemical Society Reviews, 29
M. Banks, J. Cadogan, I. Gosney, P. Hodgson, P. Langridge-Smith, D. Rankin (1994)
Bis-functionalisation of C60via thermal rearrangement of an isolable fulleroaziridine bearing a ‘solubilising’ supermesityl ester moietyJournal of The Chemical Society, Chemical Communications
Florian Machui, S. Langner, Xiangdong Zhu, Steven Abbott, C. Brabec (2012)
Determination of the P3HT:PCBM solubility parameters via a binary solvent gradient method: Impact of solubility on the photovoltaic performanceSolar Energy Materials and Solar Cells, 100
J. Delgado, Pierre‐Antoine Bouit, S. Filippone, M. Herranz, N. Martín (2010)
Organic photovoltaics: a chemical approach.Chemical communications, 46 27
Chang‐Zhi Li, H. Yip, A. Jen (2012)
Functional fullerenes for organic photovoltaicsJournal of Materials Chemistry, 22
W. Gottardi (1974)
Dijodamin: AcylderivateMonatshefte für Chemie / Chemical Monthly, 105
N. Martín, M. Altable, S. Filippone, Á. Martín-Domenech (2007)
New Reactions in Fullerene ChemistryChemInform, 39
B. Illescas, N. Martín (2006)
[60]Fullerene-Based Electron AcceptorsChemInform, 38
A direct synthetic method for producing oxazoline‐fused fullerenes, that is, fullerooxazoles, from [60] fullerene and readily available carboxamides by radical pathways has been developed. The method presented allows efficient access to a variety of fullerooxazoles with high functional compatibility under mild reaction conditions. Furthermore, systematic investigation of their properties, such as solubility, thermostability, and electrochemical behavior, was conducted.
Asian Journal of Organic Chemistry – Wiley
Published: Jan 1, 2013
Keywords: ; ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.