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Russian Chemical Reviews, 2018, Volume 87, Issue 11, Pages 1049–1079
DOI: https://doi.org/10.1070/RCR4837 (Mi rcr4226) 		 
This article is cited in 49 scientific papers (total in 49 papers)

Adducts of transition metal complexes with redox-active ligands: the structure and spin-state-switching rearrangements

A. A. Starikova, V. I. Minkin

Institute of Physical and Organic Chemistry at Southern Federal University
English full-text Citations (49) Russian version article
DOI: https://doi.org/10.1070/RCR4837
Abstract: The currently available literature data on the synthesis, molecular and electronic structure of mixed-ligand complexes (adducts) of transition metals (chromium, manganese, iron, cobalt, ruthenium) with organic redox-active ligands are systematically considered for the first time. The possibility of manifestation of magnetic bistability by adducts of tetracoordinate $\mathrm{Co}^{\mathrm{II}}$ and $\mathrm{Fe}^{\mathrm{II}}$ complexes and the potential for their application as molecular switches are studied in detail by means of quantum chemical modelling of thermally initiated rearrangements controlled by the spin crossover and valence tautomerism mechanisms. Special attention is given to dinuclear adducts of $\mathrm{Co}^{\mathrm{II}}$ and $\mathrm{Fe}^{\mathrm{II}}$ complexes with linearly bonded and polycyclic di-o-quinones and their imines, which can operate as thermally switchable elements of quantum computers suitable for practical implementation of two-qubit gates.
The bibliography includes 183 references.
Keywords: adducts of metal complexes, redox-active ligands, spin-crossover, valence tautomerism, magnetic properties, quantum-chemical modeling.
Funding agency Grant number
Russian Science Foundation 14-13-00573
Ministry of Education and Science of the Russian Federation 1.5056.2017/6.7
Received: 22.05.2018
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: Russian
Citation: A. A. Starikova, V. I. Minkin, “Adducts of transition metal complexes with redox-active ligands: the structure and spin-state-switching rearrangements”, Russian Chem. Reviews, 87:11 (2018), 1049–1079
Citation in format AMSBIB
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\by A.~A.~Starikova, V.~I.~Minkin
\paper Adducts of transition metal complexes with redox-active ligands: the structure and spin-state-switching rearrangements
\jour Russian Chem. Reviews
\yr 2018
\vol 87
\issue 11
\pages 1049--1079
\mathnet{http://mi.mathnet.ru/eng/rcr4226}
\crossref{https://doi.org/10.1070/RCR4837}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2018RuCRv..87.1049S}
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\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85056078418}
Linking options:
  • https://www.mathnet.ru/eng/rcr4226
  • https://doi.org/10.1070/RCR4837
  • https://www.mathnet.ru/eng/rcr/v87/i11/p1049
    • This publication is cited in the following 49 articles:
    1. Anton N. Lukoyanov, Yulia V. Zvereva, Anton V. Cherkasov, Grigory Yu. Zhigulin, Nikita P. Kharitonov, Sergey Yu. Ketkov, CrystEngComm, 2025  crossref
    2. Max Mörtel, Stephen J. Goodner, Johannes Oschwald, Andreas Scheurer, Thomas Drewello, Marat M. Khusniyarov, Dalton Trans., 53:9 (2024), 4098  crossref
    3. Ghasem Marandi, Ali Hassanzadeh, Sci Rep, 14:1 (2024)  crossref
    4. S. V. Baryshnikova, M. V. Arsen'ev, N. O. Druzhkov, G. K. Fukin, E. V. Baranov, A. V. Piskunov, Russ J Coord Chem, 50:1 (2024), 49  crossref
    5. S. V. Baryshnikova, M. V. Arsen'eva, N. O. Druzhkov, G. K. Fukin, E. V. Baranov, A. V. Piskunov, Koordinacionnaâ himiâ, 50:2 (2024), 100  crossref
    6. Jett T. Janetzki, Gemma K. Gransbury, Robert W. Gable, Marcus J. Giansiracusa, Alyona A. Starikova, Colette Boskovic, Eur J Inorg Chem, 2024  crossref
    7. S. V. Klementyeva, T. S. Sukhikh, P. A. Abramov, A. I. Poddel’sky, Molecules, 28:4 (2023), 1994  crossref
    8. V. V. Khrizanforova, R. R. Fayzullin, A. S. Bogomyakov, V. I. Morozov, R. G. Batulin, T. P. Gerasimova, D. R. Islamov, Yu. H. Budnikova, Dalton Trans., 2023, no. 23  crossref
    9. A. Ziółkowska, M. Witwicki, International Journal of Molecular Sciences, 24:4 (2023), 4001  crossref
    10. J. T. Janetzki, M. G. Chegerev, G. K. Gransbury, R. W. Gable, J. K. Clegg, R. J. Mulder, G. N. L. Jameson, A. A. Starikova, C. Boskovic, Inorg. Chem., 62:38 (2023), 15719  crossref
    11. K. V. Arsenyeva, A. V. Klimashevskaya, M. A. Zherebtsov, M. G. Chegerev, A. V. Cherkasov, I. A. Yakushev, A. V. Piskunov, Russ. J. Coord. Chem., 48:8 (2022), 464  crossref
    12. M. G. Chegerev, D. V. Korchagin, G. V. Shilov, N. N. Efimov, A. G. Starikov, A. V. Piskunov, A. V. Chernyshev, A. N. Bulgakov, V. I. Minkin, A. V. Palii, S. M. Aldoshin, Dalton Trans., 51:44 (2022), 16876  crossref
    13. S. V. Baryshnikova, A. I. Poddel’sky, Molecules, 27:12 (2022), 3928  crossref
    14. M. G. Chegerev, A. A. Starikova, Computational and Theoretical Chemistry, 1211 (2022), 113693  crossref
    15. A. Ali, S. Bhowmik, S. K. Barman, N. Mukhopadhyay, Ch. E. Glüer (nee Schiewer), F. Lloret, F. Meyer, R. Mukherjee, Inorg. Chem., 61:13 (2022), 5292  crossref
    16. M. A. Hay, J. T. Janetzki, V. J. Kumar, R. W. Gable, R. Clérac, A. A. Starikova, P. J. Low, C. Boskovic, Inorg. Chem., 61:44 (2022), 17609  crossref
    17. K. I. Pashanova, A. I. Poddel'sky, A. V. Piskunov, Coordination Chemistry Reviews, 459 (2022), 214399  crossref
    18. M. G. Chegerev, A. A. Starikova, SSRN Journal, 2022  crossref
    19. A. V. Piskunov, K. V. Arsenyeva, A. V. Klimashevskaya, A. V. Cherkasov, Russ. J. Coord. Chem., 48:5 (2022), 278  crossref
    20. A. A. Starikova, M. G. Chegerev, A. G. Starikov, V. I. Minkin, Russ. J. Coord. Chem., 48:4 (2022), 233  crossref
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