Home / Publications / Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)}

Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)}

Mikhail Aleksandrovich Kiskin 1
Mikhail Aleksandrovich Kiskin
Stanislav Alexandrovich Nikolaevskii 1
Stanislav Alexandrovich Nikolaevskii
Petr Vital'evich Primakov 2, 3
Petr Vital'evich Primakov
Alexander Sergeyevich Goloveshkin 2
Alexander Sergeyevich Goloveshkin
Vladimir Konstantinovich Imshennik 4
Vladimir Konstantinovich Imshennik
Yuri Vasilievich Maksimov 4
Yuri Vasilievich Maksimov
Alexey Anatol'evich Sidorov 1
Alexey Anatol'evich Sidorov
Igor Leonidovich Eremenko 1, 2
Igor Leonidovich Eremenko
10.1016/j.mencom.2020.05.003
Published 2020-04-30
CommunicationVolume 30, Issue 3, 273-275
14
Share
Cite this
GOST
 | 
Cite this
GOST Copy
Lutsenko I. A. et al. Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)} // Mendeleev Communications. 2020. Vol. 30. No. 3. pp. 273-275.
GOST all authors (up to 50) Copy
Lutsenko I. A., Kiskin M. A., Nikolaevskii S. A., Nelyubina Y. V., Primakov P. V., Goloveshkin A. S., Imshennik V. K., Maksimov Y. V., Sidorov A. A., Eremenko I. L. Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)} // Mendeleev Communications. 2020. Vol. 30. No. 3. pp. 273-275.
RIS
 | 
Cite this
RIS Copy
TY - JOUR
DO - 10.1016/j.mencom.2020.05.003
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.05.003
TI - Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)}
T2 - Mendeleev Communications
AU - Lutsenko, Irina Aleksandrovna
AU - Kiskin, Mikhail Aleksandrovich
AU - Nikolaevskii, Stanislav Alexandrovich
AU - Nelyubina, Yulia Vladimirovna
AU - Primakov, Petr Vital'evich
AU - Goloveshkin, Alexander Sergeyevich
AU - Imshennik, Vladimir Konstantinovich
AU - Maksimov, Yuri Vasilievich
AU - Sidorov, Alexey Anatol'evich
AU - Eremenko, Igor Leonidovich
PY - 2020
DA - 2020/04/30
PB - Mendeleev Communications
SP - 273-275
IS - 3
VL - 30
ER -
BibTex
 | 
Cite this
BibTex (up to 50 authors) Copy
@article{2020_Lutsenko,
author = {Irina Aleksandrovna Lutsenko and Mikhail Aleksandrovich Kiskin and Stanislav Alexandrovich Nikolaevskii and Yulia Vladimirovna Nelyubina and Petr Vital'evich Primakov and Alexander Sergeyevich Goloveshkin and Vladimir Konstantinovich Imshennik and Yuri Vasilievich Maksimov and Alexey Anatol'evich Sidorov and Igor Leonidovich Eremenko},
title = {Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)}},
journal = {Mendeleev Communications},
year = {2020},
volume = {30},
publisher = {Mendeleev Communications},
month = {Apr},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.05.003},
number = {3},
pages = {273--275},
doi = {10.1016/j.mencom.2020.05.003}
}
MLA
Cite this
MLA Copy
Lutsenko, Irina Aleksandrovna, et al. “Nontrivial structural organization of pivalate complexes with the fragment {Fe2Li(μ3-O)}.” Mendeleev Communications, vol. 30, no. 3, Apr. 2020, pp. 273-275. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2020.05.003.

Keywords

1,10-phenanthroline
crystal structure
heterometallic pivalate complexes
iron(III)
lithium
Mössbauer spectroscopy

Abstract

The reaction of FeIII and LII pivalates with 1,10-phenanthroline (phen) in toluene simultaneously gives the heteronuclear compounds [Fe2Li(O)(Piv)5(phen)2]·2HPiv and [{Li4(Piv)4(HPiv)2}{Fe2LiO(Piv)5(phen)2}2]·2PhMe with a structural organization uncharacteristic of FeIII and alkali metals. According to X-ray diffraction data, the trinuclear metal oxide moiety {Fe2Li (μ3-O)} forms two nonequivalent complex molecules, which form infinite horizontal chains in the crystal due to stacking interactions between aromatic rings.

References

1.
Li-ion battery materials: present and future
Nitta N., Wu F., Lee J.T., Yushin G.
Materials Today, 2015
2.
Lithium availability and future production outlooks
Vikström H., Davidsson S., Höök M.
Applied Energy, 2013
4.
Low temperature synthesis and electrochemical characteristics of LiFeO2 cathodes
Sakurai Y., Arai H., Okada S., Yamaki J.
Journal of Power Sources, 1997
5.
Lithium ferrite formation by precipitation from Fe(III) solutions
Barriga C., Barron V., Gancedo R., Gracia M., Morales J., Tirado J.L., Torrent J.
Journal of Solid State Chemistry, 1988
6.
Synthesis, Structure, and Electrochemical Properties of a New Cathode Material, LiFeO[sub 2], with a Tunnel Structure
Matsumura T., Kanno R., Inaba Y., Kawamoto Y., Takano M.
Journal of the Electrochemical Society, 2002
9.
Iron(III) and Zinc(II) Calixarene Complexes: Synthesis, Structural Studies, and Use as Procatalysts for ε-Caprolactone Polymerization
Arbaoui A., Redshaw C., Elsegood M.R., Wright V., Yoshizawa A., Yamato T.
Chemistry - An Asian Journal, 2010
10.
Molecular Magnets Containing Wheel Motifs
Hoshino N., Ako A.M., Powell A.K., Oshio H.
Inorganic Chemistry, 2009
12.
Deprotonation, Chloride Abstraction, and Dehydrohalogenation as Synthetic Routes to Bis‐Pyrazolate Pyridyl Iron(II) Complexes
Cook B.J., Polezhaev A.V., Chen C., Pink M., Caulton K.G.
European Journal of Inorganic Chemistry, 2017
14.
Supramolecular Coordination Assemblies of Dinuclear FeIII Complexes
Schmitt W., Hill J.P., Juanico M.P., Caneschi A., Costantino F., Anson C.E., Powell A.K.
Angewandte Chemie - International Edition, 2005
15.
Polynuclear iron(III) pivalates
Kiskin M.A., Fomina I.G., Sidorov A.A., Aleksandrov G.G., Proshenkina O.Y., Dobrokhotova Z.V., Ikorskii V.N., Shvedenkov Y.G., Novotortsev V.M., Eremenko I.L., Moiseev I.I.
Russian Chemical Bulletin, 2004
16.
Synthesis, structural characterisation and magnetic studies of polymetallic iron phosphonate cages
Khanra S., Helliwell M., Tuna F., McInnes E.J., Winpenny R.E.
Dalton Transactions, 2009
17.
Chemical assembly of the heteronuclear pivalate complex with the LiI and FeIII ions
Lutsenko I.А., Kiskin М.А., Alexandrov G.G., Imshennik V.K., Maksimov Y.V., Khoroshilov A.V., Goloveshkin A.S., Sidorov А.А., Eremenko I.L.
Russian Chemical Bulletin, 2018
18.
Iron(ii) complexes of ditopic carbanionic carbenes
Musgrave R.A., Turbervill R.S., Irwin M., Herchel R., Goicoechea J.M.
Dalton Transactions, 2014
19.
cis-Tach based pentadecadentate ligands as building blocks in the synthesis of FeIII and PdII coordination clusters
Newton G.N., Cooper G.J., Schuch D., Shiga T., Khanra S., Long D., Oshio H., Cronin L.
Dalton Transactions, 2009
21.
Magnetic Anisotropy of a Cyclic Octanuclear Fe(III) Cluster and Magneto-Structural Correlations in Molecular Ferric Wheels†
Waldmann O., Koch R., Schromm S., Schülein J., Müller P., Bernt I., Saalfrank R.W., Hampel F., Balthes E.
Inorganic Chemistry, 2001
22.
Tri- and tetranuclear heteropivalate complexes with core {Fe2Ni O} (x = 1, 2): Synthesis, structure, magnetic and thermal properties
Lutsenko I.A., Kiskin M.A., Nelyubina Y.V., Efimov N.N., Maksimov Y.V., Imshennik V.K., Zueva E.M., Goloveshkin A.S., Khoroshilov A.V., Rentschler E., Sidorov A.A., Eremenko I.L.
Polyhedron, 2019
23.
New approach to the synthesis of polynuclear heterometallic pivalates with iron and manganese atoms
Lutsenko I.A., Kiskin M.A., Imshennik V.K., Maksimov Y.V., Sidorov A.A., Eremenko I.L.
Russian Journal of Coordination Chemistry/Koordinatsionnaya Khimiya, 2017
24.
A One-Pot Synthesis of Monodispersed Iron Cobalt Oxide and Iron Manganese Oxide Nanoparticles from Bimetallic Pivalate Clusters
Abdulwahab K.O., Malik M.A., O’Brien P., Timco G.A., Tuna F., Muryn C.A., Winpenny R.E., Pattrick R.A., Coker V.S., Arenholz E.
Chemistry of Materials, 2013
25.
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
26.
SHELXT– Integrated space-group and crystal-structure determination
Sheldrick G.M.
Acta Crystallographica Section A: Foundations and Advances, 2015
27.
The anatomy of a comprehensive constrained, restrained refinement program for the modern computing environment –Olex2dissected
Bourhis L.J., Dolomanov O.V., Gildea R.J., Howard J.A., Puschmann H.
Acta Crystallographica Section A: Foundations and Advances, 2015
28.
10.1016/j.mencom.2020.05.003_bib0140
1988
29.
10.1016/j.mencom.2020.05.003_bib0145
Glowiak
Bull. Acad. Pol. Sci., Ser. Sci. Chim., 1977
30.
The crystal structure of “anhydrous manganic acetate”
Hessel L.W., Romers C.
Recueil des Travaux Chimiques des Pays-Bas, 2010
32.
New heterometallic pivalates with Fe III and Zn II ions: Synthesis, structures, magnetic, thermal properties
Lutsenko I.A., Kiskin M.A., Efimov N.N., Ugolkova E.A., Maksimov Y.V., Imshennik V.K., Goloveshkin A.S., Khoroshilov A.V., Lytvynenko A.S., Sidorov A.A., Eremenko I.L.
Polyhedron, 2017
33.
Über Salze einer Acetatochrombase
Weinland R.F.
Berichte der deutschen chemischen Gesellschaft, 1908