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Russian Chemical Reviews, 2021, Volume 90, Issue 10, Pages 1330–1358
DOI: https://doi.org/10.1070/RCR5002 (Mi rcr4361) 		 
This article is cited in 17 scientific papers (total in 17 papers)

Modern physical methods for the molecular design of single-molecule magnets

V. V. Novikov, Yu. V. Nelyubina

A. N. Nesmeyanov Institute of Organoelement Compounds of the Russian Academy of Sciences, Moscow
English full-text Citations (17) Russian version article
DOI: https://doi.org/10.1070/RCR5002
Abstract: Many paramagnetic metal complexes have emerged as unique magnetic materials (single-molecule magnets), which behave as conventional magnets at the single-molecule level, thereby making it possible to use them in modern devices for data storage and processing. The rational design of these complexes, however, requires a deep understanding of the physical laws behind a single-molecule magnet behaviour, the mechanisms of magnetic relaxation that determines the magnetic properties and the relationship of these properties with the structure of single-molecule magnets. This review focuses on the physical methods providing such understanding, including different versions and various combinations of magnetometry, electron paramagnetic and nuclear magnetic resonance spectroscopy, optical spectroscopy and X-ray diffraction. Many of these methods are traditionally used to determine the composition and structure of new chemical compounds. However, they are rarely applied to study molecular magnetism.
The bibliography includes 224 references.
Keywords: Electron paramagnetic resonance spectroscopy, magnetic anisotropy, magnetometry, molecular design, molecular magnetism, nuclear magnetic resonance spectroscopy, optical spectroscopy, single-molecule magnets, X-ray diffraction.
Funding agency Grant number
Russian Foundation for Basic Research 19-13-50487
Received: 25.08.2020
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: Russian
Citation: V. V. Novikov, Yu. V. Nelyubina, “Modern physical methods for the molecular design of single-molecule magnets”, Russian Chem. Reviews, 90:10 (2021), 1330–1358
Citation in format AMSBIB
\Bibitem{NovNel21}
\by V.~V.~Novikov, Yu.~V.~Nelyubina
\paper Modern physical methods for the molecular design of single-molecule magnets
\jour Russian Chem. Reviews
\yr 2021
\vol 90
\issue 10
\pages 1330--1358
\mathnet{http://mi.mathnet.ru/eng/rcr4361}
\crossref{https://doi.org/10.1070/RCR5002}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2021RuCRv..90.1330N}
\isi{https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=Publons&SrcAuth=Publons_CEL&DestLinkType=FullRecord&DestApp=WOS_CPL&KeyUT=000723168300004}
\elib{https://elibrary.ru/item.asp?id=47530626}
\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85119656262}
Linking options:
  • https://www.mathnet.ru/eng/rcr4361
  • https://doi.org/10.1070/RCR5002
  • https://www.mathnet.ru/eng/rcr/v90/i10/p1330
    • This publication is cited in the following 17 articles:
    1. M. V. Melikhov, D. V. Korchagin, Yu. P. Tupolova, L. D. Popov, V. A. Chetverikova, V. V. Tkachev, A. N. Utenyshev, N. N. Efimov, I. N. Shcherbakov, S. M. Aldoshin, Russ J Coord Chem, 50:7 (2024), 427  crossref
    2. I. K. Rubtsova, P. N. Vasilyev, J. K. Voronina, M. A. Shmelev, N. N. Efimov, S. A. Nikolaevskii, I. L. Eremenko, M. A. Kiskin, Russ J Coord Chem, 50:7 (2024), 523  crossref
    3. N. N. Efimov, K. A. Babeshkin, A. V. Rotov, Russ J Coord Chem, 50:6 (2024), 363  crossref
    4. M. V. Golikova, A. D. Yapryntsev, M. A. Teplonogova, K. A. Babeshkin, N. N. Efimov, A. E. Baranchikov, V. K. Ivanov, Russ. J. Inorg. Chem., 2024  crossref
    5. N. N. Efimov, K. A. Babeshkin, A. V. Rotov, Koordinacionnaâ himiâ, 50:7 (2024), 413  crossref
    6. Konstantin V. Zaitsev, Svyatoslav E. Tolstikov, Artem S. Bogomyakov, Sergey L. Veber, Renad Z. Sagdeev, Matvey V. Fedin, Dalton Trans., 2024  crossref
    7. I. K. Rubtsova, P. N. Vasilyev, J. K. Voronina, M. A. Shmelev, N. N. Efimov, S. A. Nikolaevskii, I. L. Eremenko, M. A. Kiskin, Koordinacionnaâ himiâ, 50:11 (2024), 787  crossref
    8. M. V. Melikhov, D. V. Korchagin, Yu. P. Tupolova, L. D. Popov, V. A. Chetverikova, V. V. Tkachev, A. N. Utenyshev, N. N. Efimov, I. N. Shcherbakov, S. M. Aldoshin, Koordinacionnaâ himiâ, 50:11 (2024), 739  crossref
    9. A. S. Belov, V. V. Novikov, A. V. Vologzhanina, A. A. Pavlov, A. S. Bogomyakov, Ya. V. Zubavichus, R. D. Svetogorov, G. E. Zelinskii, Y. Z. Voloshin, Dalton Trans., 52:2 (2023), 347  crossref
    10. V. A. Karnoukhova, I. V. Fedyanin, E. V. Dubasova, A. A. Anisimov, I. V. Ananyev, Mendeleev Communications, 33:3 (2023), 353  crossref
    11. JETP Letters, 117:8 (2023), 606–611  mathnet  crossref  crossref
    12. I. S. Zlobin, V. V. Novikov, Yu. V. Nelyubina, Russ J Coord Chem, 49:1 (2023), 1  crossref  crossref
    13. I. Zlobin, R. Aisin, V. Novikov, Russ. J. Coord. Chem., 48:1 (2022), 33–40  crossref  isi
    14. E. N. Zorina-Tikhonova, A. K. Matyukhina, A. S. Chistyakov, A. V. Vologzhanina, A. A. Korlyukov, N. V. Gogoleva, V. A. Novikova, E. V. Belova, E. A. Ugolkova, A. A. Starikova, D. V. Korchagin, K. A. Babeshkin, N. N. Efimov, M. A. Kiskin, I. L. Eremenko, New J. Chem., 46:44 (2022), 21245  crossref
    15. G. V. Romanenko, G. A. Letyagin, V. I. Ovcharenko, Russ. Chem. Rev., 91:2 (2022), RCR5028  crossref
    16. I. S. Zlobin, Yu. V. Nelyubina, V. V. Novikov, Inorg. Chem., 61:33 (2022), 12919  crossref
    17. Minkin V.I. Starikov A.G. Chegerev M.G. Starikova A.A., Russ. Chem. Bull., 70:12 (2021), 2315–2323  crossref  isi
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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