Rational design of coordination compounds based on thiosemicarbazide ligands
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PALAMARCIUC, Oleg, PALAMARCIUC, Tatiana, STRATULAT, Elena, SHOVA, Sergiu, CLERAC, Rodolphe. Rational design of coordination compounds based on thiosemicarbazide ligands. In: International Conference in Chemistry Kyiv-Toulouse: ICKT-9, 4-9 iunie 2017, Kyiv. Kyiv, Ukraine: 2017, Ediția a IX-a, p. 51.
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International Conference in Chemistry Kyiv-Toulouse
Ediția a IX-a, 2017
Conferința "International Conference in Chemistry Kyiv-Toulouse"
Kyiv, Ucraina, 4-9 iunie 2017

Rational design of coordination compounds based on thiosemicarbazide ligands


Pag. 51-51

Palamarciuc Oleg12, Palamarciuc Tatiana12, Stratulat Elena12, Shova Sergiu13, Clerac Rodolphe4
 
1 Moldova State University,
2 S.C. Polivalent,
3 “Petru Poni” Institute of Macromolecular Chemistry,
4 Centrul de Cercetări „Paul Pascal”, CRPP-CNRS, Pessac
 
Disponibil în IBN: 29 iulie 2020



Teza

The coordination chemistry of the transition metal complexes containing thiosemicarbazide derivatives are investigated due to their attractive chemical, physical and biological properties. Using various thiosemicarbazide derivatives and different metal ions with different oxidation states, allows the preparation of a large number of coordination compounds with original structures and properties. In this work we present a new way of activation of the thiosemicarbazide fragment and its condensation product with salicylaldehyde - thiosemicarbazone by coordination with manganese metal ions. It is known that the manganese chemistry with thiosemicarbazide-based ligands is not so much investigated. Recently we described an original template reaction of salicylaldehyde S-alkylisothiosemicarbazones with 2-formylpyridine molecules which opens an original synthetic approach to design new families of ligands derived from thiosemicarbazide and, hence, new metal-ion coordination complexes [1]. Mn(II) is not known to be an efficient templating ion for this type of condensation. Nevertheless using Mn(II) precursors, we were able to successfully synthesize polynuclear manganese complexes. The single crystal X-ray study of these compounds shows the formation of deca- and hexa- nuclear Mn species containing two different ligands: one initial ligand, and the second is the additional product between 2-formylpyridine and salicylaldehyde S-methylisothiosemicarbazone. The non alkylated salicylaldehyde thiosemicarbazone in strongly alkaline solutions allows the formation of the compounds with composition Mn(L)·3H2O. The X-ray investigation of its structure demonstrated the formation of a binuclear complex of the composition [(MnL2)(Mn(H2O)4)]·2H2O. The compound is not soluble in any solvent in inert atmosphere. In the presence of the air oxygen, in methanol solutions the Mn(II) compounds are oxidized to Mn(III) and an oxidative dimerization of the coordinated salicylaldehyde thiosemicarbazonate anion were detected. As a result, the formation of a new hexadentate bicompartimental ligand coordinated to two different Mn(III) ions by O2N4 donor atoms has been observed. The Mn(III) units [(Mn2L)(CH3O)2(CH3OH)2] are assembled in polymer via μ2-oxo bridges provided by methoxy groups coordinated to the metal ions. Lowtemperature magnetic investigations of the polymer indicates a ferromagnetic interaction and a slow relaxation in ac susceptibility, confirming the SMM behavior of the complexes. 1 M. Revenco, O. Palamarciuc et al., Inorganica Chimica Acta, 2011, 368, p. 157–164.