Abstract
In the present communication we report a model that describes the valence tautomeric transformation in a crystal consisting of heterometallic [Cr-dhbq-Co] molecules. The model takes into account the states arising from two different configurations of the molecule, namely, Cr3+-dhsq3−-Co3+ and Cr3+-dhsq2−-Co2+, the Heisenberg exchange interaction between the dhsq3− ligand and the Cr3+ ion as well as the cooperative electron-deformational and dipole-dipole interactions. The problem is solved in the mean field approximation. The main peculiarities of the valence tautomeric transformation are elucidated. It is demonstrated that the electron transfer ligand-Co is accompanied not only by the significant increase of the effective magnetic moment but also by the appreciable change in the microscopic polarization. The model provides quite a good description of the experimental data on the temperature dependence of the effective magnetic moment in the [(Cr(SS-cth))(Co(RR-cth))(μ-dhbq)](PF6)3 compound.
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The financial support of the Science and Technology Center in Ukraine (STCU project N 6219) and of the Ministry of Education, Culture and Research of Moldova (project 15.817.02.06F) is highly appreciated.
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Roman, M.A., Klokishner, S.I. (2020). Modeling of the Valence Tautomeric Transformation in Heterometallic [Cr-Dhbq-Co] Molecules. In: Tiginyanu, I., Sontea, V., Railean, S. (eds) 4th International Conference on Nanotechnologies and Biomedical Engineering. ICNBME 2019. IFMBE Proceedings, vol 77. Springer, Cham. https://doi.org/10.1007/978-3-030-31866-6_14
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