Abstract:
A dithienylethene-containing fullerocyclopropane was synthesized by the catalytic reaction of the carbon cluster with diazoalkane generated in situ by the oxidation of a corresponding photochrome hydrazone with MnO2 in the presence of the Pd(acac)2–2PPh3–4Et3Al catalyst, and the photochromic properties of the synthesized methanofullerene were evaluated.
Citation:
A. R. Tuktarov, A. A. Khuzin, A. R. Akhmetov, L. M. Khalilov, A. R. Tulyabaev, V. A. Barachevskiĭ, O. V. Venidiktova, U. M. Dzhemilev, “Covalent binding of fullerene C60 to dithienylethene as a promising approach to the preparation of new photochromic compounds”, Mendeleev Commun., 26:2 (2016), 143–145
Linking options:
https://www.mathnet.ru/eng/mendc2140
https://www.mathnet.ru/eng/mendc/v26/i2/p143
This publication is cited in the following 14 articles:
Albert Artigas, Cristina Castanyer, Anna Roglans, Anna Pla-Quintana, Advances in Organometallic Chemistry, 82, 2024, 135
A. A. Nekrasov, N. V. Nekrasova, M. A. Savel'ev, A. A. Khuzin, V. A. Barachevskiǐ, A. R. Tulyabaev, A. R. Tuktarov, “Electrochemical investigation of a photochromic spiropyran containing a pyrrolidinofullerene moiety”, Mendeleev Commun., 33:4 (2023), 505–508
Artur A. Khuzin, Airat R. Tuktarov, Olga V. Venidiktova, Valery A. Barachevsky, Ilnur N. Mullagaliev, Timur R. Salikhov, Renat B. Salikhov, Leonard M. Khalilov, Liliya L. Khuzina, Usein M. Dzhemilev, “Hybrid Molecules Based on Fullerene C60 and Dithienylethenes. Synthesis and Photochromic Properties. Optically Controlled Organic Field‐Effect Transistors”, Photochem & Photobiology, 98:4 (2022), 815
V. A. Barachevsky, “Organic Photochromics”, High Energy Chem, 56:1 (2022), 11
A. A. Khuzin, A. R. Tuktarov, V. A. Barachevsky, T. M. Valova, A. R. Tulyabaev, U. M. Dzhemilev, “Synthesis, photo and acidochromic properties of spiropyran-containing methanofullerenes”, RSC Adv., 10:27 (2020), 15888
A. R. Tuktarov, R. B. Salikhov, A. A. Khuzin, N. R. Popod'ko, I. N. Safargalin, I. N. Mullagaliev, U. M. Dzhemilev, “Photocontrolled organic field effect transistors based on the fullerene C60 and spiropyran hybrid molecule”, RSC Adv., 9:13 (2019), 7505
A. R. Tuktarov, A. A. Khuzin, U. M. Dzhemilev, “Acid-base isomerization of hybrid molecules based on fullerene C60 and spiropyrans”, Mendeleev Commun., 29:2 (2019), 229–231
V.A. Barachevsky, “Advances in photonics of organic photochromism”, Journal of Photochemistry and Photobiology A: Chemistry, 354 (2018), 61
V. A. Barachevsky, “Photochromic Nanoparticles and Their Properties”, Crystallogr. Rep., 63:2 (2018), 271
A. R. Tuktarov, A. R. Akhmetov, A. A. Khuzin, O. V. Venidiktova, V. A. Barachevsky, U. M. Dzhemilev, “Synthesis and photochromic properties of hybrid molecules based on fullerene C60 and 3,3′-(cyclopent-1-ene-1,2-diyl)bis(5-chloro-2-methylthiophene)”, Russ J Org Chem, 53:6 (2017), 891
A. R. Tuktarov, Z. R. Shakirova, L. M. Khalilov, Yu. B. Dudkina, Yu. H. Budnikova, R. B. Salikhov, I. N. Safargalin, U. M. Dzhemilev, “Electrochemical and electrophysical properties of aminomethano- and tetrahydropyridino-C60-fullerenes”, Mendeleev Commun., 27:2 (2017), 201–203
V. A. Kuimov, E. A. Matveeva, S. F. Malysheva, D. O. Samultsev, L. V. Klyba, Ya. V. Dem'yanov, N. K. Gusarova, B. A. Trofimov, “Microwave-assisted catalyst-free addition of secondary phosphines to fullerene C60”, Mendeleev Commun., 27:2 (2017), 198–200
A. R. Tuktarov, A. A. Khuzin, A. R. Tulyabaev, O. V. Venidictova, T. M. Valova, V. A. Barachevsky, L. M. Khalilov, U. M. Dzhemilev, “Synthesis, structure and photochromic properties of hybrid molecules based on fullerene C60 and spiropyrans”, RSC Adv., 6:75 (2016), 71151
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