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Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties

Dmitriy Sergeyevich Yambulatov 1
Dmitriy Sergeyevich Yambulatov
Stanislav Alexandrovich Nikolaevskii 1
Stanislav Alexandrovich Nikolaevskii
Maxim Andreevich Shmelev 1
Maxim Andreevich Shmelev
Konstantin Andreevich Babeshkin 1
Konstantin Andreevich Babeshkin
Denis Vladimirovich Korchagin 2
Denis Vladimirovich Korchagin
Alexander Sergeyevich Goloveshkin 3
Alexander Sergeyevich Goloveshkin
Pavel Alekseevich Petrov 4
Pavel Alekseevich Petrov
Mikhail Aleksandrovich Kiskin 1
Mikhail Aleksandrovich Kiskin
Maksim Nail'evich Sokolov 4
Maksim Nail'evich Sokolov
10.1016/j.mencom.2021.09.011
Published 2021-09-08
CommunicationVolume 31, Issue 5, 624-627
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Yambulatov D. S. et al. Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties // Mendeleev Communications. 2021. Vol. 31. No. 5. pp. 624-627.
GOST all authors (up to 50) Copy
Yambulatov D. S., Nikolaevskii S. A., Shmelev M. A., Babeshkin K. A., Korchagin D. V., Efimov N. N., Goloveshkin A. S., Petrov P. A., Kiskin M. A., Sokolov M. N., Eremenko I. L. Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties // Mendeleev Communications. 2021. Vol. 31. No. 5. pp. 624-627.
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TY - JOUR
DO - 10.1016/j.mencom.2021.09.011
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.09.011
TI - Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties
T2 - Mendeleev Communications
AU - Yambulatov, Dmitriy Sergeyevich
AU - Nikolaevskii, Stanislav Alexandrovich
AU - Shmelev, Maxim Andreevich
AU - Babeshkin, Konstantin Andreevich
AU - Korchagin, Denis Vladimirovich
AU - Efimov, Nikolai Nikolaevich
AU - Goloveshkin, Alexander Sergeyevich
AU - Petrov, Pavel Alekseevich
AU - Kiskin, Mikhail Aleksandrovich
AU - Sokolov, Maksim Nail'evich
AU - Eremenko, Igor Leonidovich
PY - 2021
DA - 2021/09/08
PB - Mendeleev Communications
SP - 624-627
IS - 5
VL - 31
ER -
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@article{2021_Yambulatov,
author = {Dmitriy Sergeyevich Yambulatov and Stanislav Alexandrovich Nikolaevskii and Maxim Andreevich Shmelev and Konstantin Andreevich Babeshkin and Denis Vladimirovich Korchagin and Nikolai Nikolaevich Efimov and Alexander Sergeyevich Goloveshkin and Pavel Alekseevich Petrov and Mikhail Aleksandrovich Kiskin and Maksim Nail'evich Sokolov and Igor Leonidovich Eremenko},
title = {Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties},
journal = {Mendeleev Communications},
year = {2021},
volume = {31},
publisher = {Mendeleev Communications},
month = {Sep},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.09.011},
number = {5},
pages = {624--627},
doi = {10.1016/j.mencom.2021.09.011}
}
MLA
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Yambulatov, Dmitriy Sergeyevich, et al. “Heterometallic CoII-LiI carboxylate complexes with N-heterocyclic carbene, triphenylphosphine and pyridine: a comparative study of magnetic properties.” Mendeleev Communications, vol. 31, no. 5, Sep. 2021, pp. 624-627. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2021.09.011.

Keywords

ab initio calculations
cobalt(II)
easy-plane magnetic anisotropy
heterometallic carboxylate complexes
N-heterocyclic carbenes
single molecule magnet

Abstract

Heterometallic Coii-Lii compounds with N-heterocyclic carbene 1,3-bis(2,4,6-trimethylphenyl)imidazol-2-ylidene (IMes), tri phenylphosphine (Ph3P) and pyridine (py), [Co2Li2(Piv)6(IMes)2] (Piv is the anion of pivalic acid), [Co2Li2(Piv)6(Ph3P)2] and [Co2Li2(Fur)6(py)2] (Fur is the anion of 2-furoic acid), respectively, have been prepared and structurally characterized by X-ray crystallography. Easy-plane magnetic anisotropy in Coii complexes with pseudo-tetrahedral cores CoO3X (X = C, P and N) was revealed by measuring the magnetic properties together with quantum-chemical calculations using the SA-CASSCF/NEVPT2 approach. The field-induced slow magnetic relaxation of the complexes was mainly attributed to the Raman and direct processes.

References

1.
Deprotonation of Benzoxazolium Salt: Trapping of a Radical-Cation Intermediate
Klementyeva S.V., Abramov P.A., Somov N.V., Dudkina Y.B., Budnikova Y.H., Poddel’sky A.I.
Organic Letters, 2019
2.
N-Heterocyclic Carbenes: From Laboratory Curiosities to Efficient Synthetic Tools, 2nd edn., ed. S. Díez-González, RSC Publishing, Cambridge, 2017.
3.
Ionic Pd/NHC Catalytic System Enables Recoverable Homogeneous Catalysis: Mechanistic Study and Application in the Mizoroki–Heck Reaction
Eremin D.B., Denisova E.A., Yu. Kostyukovich A., Martens J., Berden G., Oomens J., Khrustalev V.N., Chernyshev V.M., Ananikov V.P.
Chemistry - A European Journal, 2019
4.
Highly Efficient Blue-Emitting Iridium(III) Carbene Complexes and Phosphorescent OLEDs
Chang C., Cheng Y., Chi Y., Chiu Y., Lin C., Lee G., Chou P., Chen C., Chang C., Wu C.
Angewandte Chemie - International Edition, 2008
6.
Formation of Water-Soluble Pincer Silver(I)−Carbene Complexes:  A Novel Antimicrobial Agent
Melaiye A., Simons R.S., Milsted A., Pingitore F., Wesdemiotis C., Tessier C.A., Youngs W.J.
Journal of Medicinal Chemistry, 2004
7.
Synthesis, Electronic Structure, and Magnetism of [Ni(6-Mes)2]+: A Two-Coordinate Nickel(I) Complex Stabilized by Bulky N-Heterocyclic Carbenes
Poulten R.C., Page M.J., Algarra A.G., Le Roy J.J., López I., Carter E., Llobet A., Macgregor S.A., Mahon M.F., Murphy D.M., Murugesu M., Whittlesey M.K.
Journal of the American Chemical Society, 2013
8.
Two-Coordinate Co(II) Imido Complexes as Outstanding Single-Molecule Magnets
Yao X., Du J., Zhang Y., Leng X., Yang M., Jiang S., Wang Z., Ouyang Z., Deng L., Wang B., Gao S.
Journal of the American Chemical Society, 2016
9.
A linear cobalt(II) complex with maximal orbital angular momentum from a non-Aufbau ground state
Bunting P.C., Atanasov M., Damgaard-Møller E., Perfetti M., Crassee I., Orlita M., Overgaard J., van Slageren J., Neese F., Long J.R.
Science, 2018
10.
A Trigonal Prismatic Mononuclear Cobalt(II) Complex Showing Single-Molecule Magnet Behavior
Novikov V.V., Pavlov A.A., Nelyubina Y.V., Boulon M., Varzatskii O.A., Voloshin Y.Z., Winpenny R.E.
Journal of the American Chemical Society, 2015
11.
Electronic Structure and Slow Magnetic Relaxation of Low-Coordinate Cyclic Alkyl(amino) Carbene Stabilized Iron(I) Complexes
Samuel P.P., Mondal K.C., Amin Sk N., Roesky H.W., Carl E., Neufeld R., Stalke D., Demeshko S., Meyer F., Ungur L., Chibotaru L.F., Christian J., Ramachandran V., van Tol J., Dalal N.S., et. al.
Journal of the American Chemical Society, 2014
12.
Observation of the single-ion magnet behavior of d8 ions on two-coordinate Co(i)–NHC complexes
Meng Y., Mo Z., Wang B., Zhang Y., Deng L., Gao S.
Chemical Science, 2015
14.
Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes
Meihaus K.R., Minasian S.G., Lukens W.W., Kozimor S.A., Shuh D.K., Tyliszczak T., Long J.R.
Journal of the American Chemical Society, 2014
15.
Smart Ligands for Efficient 3d-, 4d- and 5d-Metal Single-Molecule Magnets and Single-Ion Magnets
Perlepe P.S., Maniaki D., Pilichos E., Katsoulakou E., Perlepes S.P.
Inorganics, 2020
16.
Heterometallic Rings: Their Physics and use as Supramolecular Building Blocks
McInnes E.J., Timco G.A., Whitehead G.F., Winpenny R.E.
Angewandte Chemie - International Edition, 2015
17.
Quantum Tunneling of Magnetization and Related Phenomena in Molecular Materials
Gatteschi D., Sessoli R.
Angewandte Chemie - International Edition, 2003
18.
The first example of 3d-4f-heterometallic carboxylate complex containing phosphine ligand
Nikolaevskii S.A., Yambulatov D.S., Voronina J.K., Melnikov S.N., Babeshkin K.A., Efimov N.N., Goloveshkin A.S., Kiskin M.A., Sidorov A.A., Eremenko I.L.
ChemistrySelect, 2020
19.
Mapping Magnetic Properties and Relaxation in Vanadium(IV) Complexes with Lanthanides by Electron Paramagnetic Resonance
Kurganskii I.V., Bazhina E.S., Korlyukov A.A., Babeshkin K.A., Efimov N.N., Kiskin M.A., Veber S.L., Sidorov A.A., Eremenko I.L., Fedin M.V.
Molecules, 2019
20.
The First Series of Heterometallic LnIII -VIV Complexes Based on Substituted Malonic Acid Anions: Synthesis, Structure and Magnetic Properties
Bazhina E.S., Aleksandrov G.G., Kiskin M.A., Korlyukov A.A., Efimov N.N., Bogomyakov A.S., Starikova A.A., Mironov V.S., Ugolkova E.A., Minin V.V., Sidorov A.A., Eremenko I.L.
European Journal of Inorganic Chemistry, 2018
21.
Yambulatov D.S., Petrov P.A., Nelyubina Y.V., Starikova A.A., Pavlov A.A., Aleshin D.Y., Nikolaevskii S.A., Kiskin M.A., Sokolov M.N., Eremenko I.L.
Mendeleev Communications, 2020
22.
Simple synthetic protocol to obtain 3d-4f-heterometallic carboxylate complexes of N-heterocyclic carbenes
Nikolaevskii S.A., Petrov P.A., Sukhikh T.S., Yambulatov D.S., Kiskin M.A., Sokolov M.N., Eremenko I.L.
Inorganica Chimica Acta, 2020
24.
Complexes of Cobalt(II) Iodide with Pyridine and Redox Active 1,2-Bis(arylimino)acenaphthene: Synthesis, Structure, Electrochemical, and Single Ion Magnet Properties
Yambulatov D.S., Nikolaevskii S.A., Kiskin M.A., Magdesieva T.V., Levitskiy O.A., Korchagin D.V., Efimov N.N., Vasil’ev P.N., Goloveshkin A.S., Sidorov A.A., Eremenko I.L.
Molecules, 2020
25.
Rational synthesis and dimensionality tuning of MOFs from preorganized heterometallic molecular complexes
Sapianik A.A., Kiskin M.A., Kovalenko K.A., Samsonenko D.G., Dybtsev D.N., Audebrand N., Sun Y., Fedin V.P.
Dalton Transactions, 2019
26.
Synthesis and characterization of Li(I)–M(II) (M=Co, Ni) heterometallic complexes as molecular precursors for LiMO2
Dobrokhotova Z., Emelina A., Sidorov A., Aleksandrov G., Kiskin M., Koroteev P., Bykov M., Fazylbekov M., Bogomyakov A., Novotortsev V., Eremenko I.
Polyhedron, 2011
27.
OLEX2: a complete structure solution, refinement and analysis program
Dolomanov O.V., Bourhis L.J., Gildea R.J., Howard J.A., Puschmann H.
Journal of Applied Crystallography, 2009
28.
SHELXT– Integrated space-group and crystal-structure determination
Sheldrick G.M.
Acta Crystallographica Section A: Foundations and Advances, 2015
29.
10.1016/j.mencom.2021.09.011_b0145
Llunell
SHAPE 2.1: Program for the Stereochemical Analysis of Molecular Fragments by Means of Continuous Shape Measures and Associated Tools, 2013
30.
Synthesis, structure, solid-state thermolysis, and thermodynamic properties of new heterometallic complex Li2Co2(Piv)6(NEt3)2
Dobrohotova Z.V., Sidorov A.A., Kiskin M.A., Aleksandrov G.G., Gavrichev K.S., Tyurin A.V., Emelina A.L., Bykov M.A., Bogomyakov A.S., Malkerova I.P., Alihanian A.S., Novotortsev V.M., Eremenko I.L.
Journal of Solid State Chemistry, 2010
34.
PHI: A powerful new program for the analysis of anisotropic monomeric and exchange-coupled polynucleard- andf-block complexes
Chilton N.F., Anderson R.P., Turner L.D., Soncini A., Murray K.S.
Journal of Computational Chemistry, 2013
35.
Tuning electronic structure through halide modulation of mesoionic carbene cobalt complexes
Mantanona A.J., Tolentino D.R., Cay K.S., Gembicky M., Jazzar R., Bertrand G., Rinehart J.D.
Dalton Transactions, 2020
37.
Polymorphism in a Cobalt-Based Single-Ion Magnet Tuning Its Barrier to Magnetization Relaxation
Pavlov A.A., Nelyubina Y.V., Kats S.V., Penkova L.V., Efimov N.N., Dmitrienko A.O., Vologzhanina A.V., Belov A.S., Voloshin Y.Z., Novikov V.V.
Journal of Physical Chemistry Letters, 2016