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Fullerenes, Nanotubes and Carbon Nanostructures Volume 23, 2015 - Issue 12
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Original Articles

What Fullerene Is More Reactive Toward Peroxyl Radicals? A Comparative DFT Study on ROO Addition to C60 and C70 Fullerenes

Denis S H. SabirovInstitute of Petrochemistry and Catalysis, Russian Academy of Sciences, Ufa, RussiaCorrespondence[email protected]
,
Ralia R. GaripovaInstitute of Petrochemistry and Catalysis, Russian Academy of Sciences, Ufa, Russia
&
Ramil G. BulgakovInstitute of Petrochemistry and Catalysis, Russian Academy of Sciences, Ufa, Russia
Pages 1051-1057 | Received 02 Jun 2015, Accepted 08 Jun 2015, Published online: 14 Sep 2015

Citations (19)

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Read on this site (3)

Dim I. Galimov, Dilara R. Gazeeva, Denis Sh. Sabirov & Ramil G. Bulgakov. (2023) Estimation of the efficiency of the C60 and C70 fullerenes as inhibitors of the radical chain oxidation of сumene. Fullerenes, Nanotubes and Carbon Nanostructures 31:2, pages 176-181.
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Denis Sh. Sabirov, Ralia R. Garipova & Zemfira S. Kinzyabaeva. (2020) Fullerene–1,4-dioxane adducts: a DFT study of the structural features and molecular properties. Fullerenes, Nanotubes and Carbon Nanostructures 28:2, pages 154-159.
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Denis Sh. Sabirov, Ottorino Ori & István László. (2018) Isomers of the C84 fullerene: A theoretical consideration within energetic, structural, and topological approaches. Fullerenes, Nanotubes and Carbon Nanostructures 26:2, pages 100-110.
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Articles from other publishers (16)

A. A. Tukhbatullina & D. Sh. Sabirov. (2023) Reactions of fullerenols C60(OH)n (n = 2, 18, 24) with methyl and tert-butyl radicals: a computational thermochemistry study. Russian Chemical Bulletin 72:10, pages 2319-2329.
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Diogo J.L. Rodrigues, Inês B.O.M. Pina, Luís M.N.B.F. Santos & Carlos F.R.A.C. Lima. (2023) Decomposition of solid C60–indene adducts by retro Diels Alder reaction – A kinetic and thermodynamic study. Diamond and Related Materials 136, pages 110031.
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Diogo J. L. Rodrigues, Inês B. O. M. Pina, Luís M. N. B. F. Santos & Carlos F. R. A. C. Lima. (2023) Decomposition of Solid C60‒Indene Adducts by Retro Diels Alder Reaction – a Kinetic and Thermodynamic Study. SSRN Electronic Journal.
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L. R. Yakupova, D. R. Diniakhmetova, I. M. Sakhautdinov & R. L. Safiullin. (2022) Antioxidant Activity of Methano- and Cyclopentenofullerenes. Kinetics and Catalysis 63:5, pages 463-469.
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Diogo J. L. Rodrigues, Luís M. N. B. F. Santos, André Melo & Carlos F. R. A. C. Lima. (2022) Theoretical Study on the Diels–Alder Reaction of Fullerenes: Analysis of Isomerism, Aromaticity, and Solvation. Organics 3:4, pages 364-379.
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Eldar Zeynalov, Asgar Huseynov, Elchin Huseynov, Nazilya Salmanova, Yaqub Nagiyev & Narmin Abdurakhmanova. (2021) Impact of As-Prepared and Purifıed Multi-Walled Carbon Nanotubeson the Liquid-Phase Aerobic Oxidatıon of Hydrocarbons. Chemistry & Chemical Technology 15:4, pages 479-485.
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Maryam Manafi Moghadam & Mehdi Zamani. (2021) Electronic structure and spectroscopy of C60 nitroaryl radical adducts. Computational and Theoretical Chemistry 1198, pages 113185.
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Zemfira S. Kinzyabaeva & Denis Sh. Sabirov. (2020) Sonochemical synthesis of novel C60 fullerene 1,4-oxathiane derivative through the intermediate fullerene radical anion. Ultrasonics Sonochemistry 67, pages 105169.
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Dim I. Galimov, Airat R. Tuktarov, Denis Sh. Sabirov, Artur A. Khuzin & Usein M. Dzhemilev. (2019) Reversible luminescence switching of a photochromic fullerene[60]-containing spiropyran. Journal of Photochemistry and Photobiology A: Chemistry 375, pages 64-70.
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Boris L. Tumanskii, Denis S. Sabirov, Stanislav P. Solodovnikov & Yury I. Lyakhovetsky. (2019) Manganese( iii ) acetate-mediated activation of C–H bonds of weak CH-acids; addition of o -carborane, its derivatives, and some other CH-acids to [60]-fullerene . Dalton Transactions 48:6, pages 2046-2058.
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Eldar Zeynalov, Norman S. Allen, Nazilya Salmanova & Vladimir Vishnyakov. (2018) Carbon nanotubes catalysis in liquid-phase aerobic oxidation of hydrocarbons: Influence of nanotube impurities. Journal of Physics and Chemistry of Solids.
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Denis Sh. Sabirov, Igor S. Shepelevich & Boris L. Tumanskii. (2018) Thermodynamic selectivity of multicenter chemical reactions. A statistical quantification of a widespread intuitive approach and its application to reactions of fullerenes. Computational and Theoretical Chemistry 1138, pages 84-90.
Crossref
A. F. Shestakov. (2017) Theoretical study of structures and reactivities of the complexes of metals in the zero-valent state with fullerene ligands. Russian Chemical Bulletin 65:10, pages 2340-2350.
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Denis Sh Sabirov, Anton O. Terentyev & Franco Cataldo. (2016) Bisadducts of the C 60 and C 70 fullerenes with anthracene: Isomerism and DFT estimation of stability and polarizability. Computational and Theoretical Chemistry 1081, pages 44-48.
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Denis Sh. Sabirov, Anton O. Terentyev & Viacheslav I. Sokolov. (2016) Activation energies and information entropies of helium penetration through fullerene walls. Insights into the formation of endofullerenes nX@C 60/70 (n = 1 and 2) from the information entropy approach . RSC Advances 6:76, pages 72230-72237.
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Denis Sh. Sabirov, Anton O. Terentyev & Ramil G. Bulgakov. (2015) Counting the Isomers and Estimation of Anisotropy of Polarizability of the Selected C 60 and C 70 Bisadducts Promising for Organic Solar Cells . The Journal of Physical Chemistry A 119:43, pages 10697-10705.
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