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Russian Chemical Reviews, 2020, Volume 89, Issue 7, Pages 693–712
DOI: https://doi.org/10.1070/RCR4923 (Mi rcr4299) 		 
This article is cited in 25 scientific papers (total in 25 papers)

From spin-labelled fused polyaromatic compounds to magnetically active graphene nanostructures

Yu. A. Tena, N. M. Troshkovaa, E. V. Tretyakovab

a N. N. Vorozhtsov Novosibirsk Institute of Organic Chemistryof the Siberian Branch of Russian Academy of Sciences
b Novosibirsk State University
English full-text Citations (25) Russian version article
DOI: https://doi.org/10.1070/RCR4923
Abstract: Molecular design of magnetically active graphene nanoscale structures is an emerging field of research. The key goal of this research is to produce graphene nanoribbons and graphene quantum dots with specified electronic, optical and magnetic properties. The review considers methods for the synthesis of spin-labelled polycyclic aromatic hydrocarbons, which are homologous precursors of graphene nanostructures, and discusses the advances and prospects of the design of magnetically active graphene materials.
The bibliography includes 134 references.
Keywords: Graphene nanoribbons, Graphene quantum dots, Magnetic edge states, Stable organic radicals, Spin-labelled graphene nanostructures, Condensed polyaromatic compounds.
Funding agency Grant number
Russian Science Foundation 18-13-00173
Received: 04.10.2019
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: Russian
Citation: Yu. A. Ten, N. M. Troshkova, E. V. Tretyakov, “From spin-labelled fused polyaromatic compounds to magnetically active graphene nanostructures”, Russian Chem. Reviews, 89:7 (2020), 693–712
Citation in format AMSBIB
\Bibitem{TenTroTre20}
\by Yu.~A.~Ten, N.~M.~Troshkova, E.~V.~Tretyakov
\paper From spin-labelled fused polyaromatic compounds to magnetically active graphene nanostructures
\jour Russian Chem. Reviews
\yr 2020
\vol 89
\issue 7
\pages 693--712
\mathnet{http://mi.mathnet.ru/eng/rcr4299}
\crossref{https://doi.org/10.1070/RCR4923}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2020RuCRv..89..693T}
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Linking options:
  • https://www.mathnet.ru/eng/rcr4299
  • https://doi.org/10.1070/RCR4923
  • https://www.mathnet.ru/eng/rcr/v89/i7/p693
    • This publication is cited in the following 25 articles:
    1. Ekaterina N. Kudryavtseva, Evgeny V. Tretyakov, Rosa M. Gomila, Antonio Frontera, Alexey A. Dmitriev, Nina P. Gritsan, Debin Xia, Nikolay N. Efimov, Pavel V. Petunin, Pavel S. Postnikov, Galina V. Romanenko, Vadim Yu. Kukushkin, Materials Chemistry and Physics, 332 (2025), 130252  crossref
    2. Pavel V. Petunin, Evgeny V. Tretyakov, Matvey K. Shurikov, Daria E. Votkina, Galina V. Romanenko, Alexey A. Dmitriev, Nina P. Gritsan, Daniil M. Ivanov, Rosa M. Gomila, Antonio Frontera, Giuseppe Resnati, Vadim Yu. Kukushkin, Pavel S. Postnikov, Crystal Growth & Design, 24:5 (2024), 2104  crossref
    3. Evgeny Tretyakov, Organic Radicals, 2024, 61  crossref
    4. I. V. Fedyanin, A. I. Samigullina, E. V. Tretyakov, J Struct Chem, 65:3 (2024), 619  crossref
    5. I. A. Zayakin, M. A. Syroeshkin, P. G. Shangin, A. A. Korlyukov, A. A. Dmitriev, N. P. Gritsan, E. V. Tretyakov, Russ Chem Bull, 73:5 (2024), 1216  crossref
    6. Alyona A. Starikova, Maxim G. Chegerev, Andrey G. Starikov, Vladimir I. Minkin, Chemistry, 6:5 (2024), 816  crossref
    7. Rika Uesugi, Rina Takano, Takayuki Ishida, J. Org. Chem., 2024  crossref
    8. K. V. Agliulin, A. V. Stepanov, I. A. Zayakin, V. N. Yarovenko, M. M. Krayushkin, E. V. Tretyakov, D. I. Nasyrova, A. O. Ayt, T. M. Valova, Russ Chem Bull, 73:11 (2024), 3342  crossref
    9. I. Zayakin, E. Tretyakov, A. Akyeva, M. Syroeshkin, Ju. Burykina, A. Dmitrenok, A. Korlyukov, D. Nasyrova, I. Bagryanskaya, D. Stass, V. Ananikov, Chemistry A European J., 29:6 (2023)  crossref
    10. Zheng Yue, Jin Liu, M. Baumgarten, Di Wang, J. Phys. Chem. A, 127:7 (2023), 1565  crossref
    11. P. A. Fedyushin, A. A. Serykh, A. S. Vinogradov, T. V. Mezhenkova, V. E. Platonov, D. I. Nasyrova, A. I. Samigullina, M. V. Fedin, I. A. Zayakin, E. V. Tretyakov, Russ. Chem. Bull., 71:8 (2022), 1670  crossref
    12. A. G. Starikov, M. G. Chegerev, A. A. Starikova, V. I. Minkin, Dokl. Chem., 503:1 (2022), 51  crossref
    13. A. I. Kovalev, I. A. Khotina, Mendeleev Communications, 32:2 (2022), 244  crossref
    14. E. V. Tretyakov, V. I. Ovcharenko, A. O. Terent’ev, I. B. Krylov, T. V. Magdesieva, D. G. Mazhukin, N. P. Gritsan, Russ. Chem. Rev., 91:2 (2022), RCR5025  crossref
    15. G. Biagiotti, I. Perini, B. Richichi, S. Cicchi, Molecules, 26:20 (2021), 6306  crossref  isi  scopus
    16. A. A. Samsonenko, S. E. Tolstikov, V. I. Ovcharenko, M. V. Fedin, S. L. Veber, Russ. Chem. Bull., 70:12 (2021), 2370–2374  crossref  isi  scopus
    17. E. V. Tretyakov, P. A. Fedyushin, Russ. Chem. Bull., 70:12 (2021), 2298–2314  crossref  isi
    18. Tretyakov E.V., Lomanovich K.A., Bagryanskaya E.G., Romanenko G.V., Bogomyakov A.S., Zueva E.M., Petrova M.M., Dmitriev A.A., Gritsan N.P., Eur. J. Org. Chem., 2021:17 (2021), 2355–2361  crossref  isi
    19. A. D. Zubenko, B. V. Egorova, L. S. Zamurueva, S. N. Kalmykov, O. A. Fedorova, Mendeleev Commun., 31:2 (2021), 194–196  crossref  isi  scopus
    20. L. Yu. Ukhin, L. G. Kuz'mina, T. N. Gribanova, L. V. Belousova, E. N. Shepelenko, G. S. Borodkin, O. I. Dmitrieva, V. A. Podshibyakin, N. V. Stankevich, Mendeleev Commun., 31:2 (2021), 251–253  crossref  isi
    Citing articles in Google Scholar: Russian citations, English citations
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