Synthesis and properties of a manganese carboxylate cluster and oxide nanoparticles for artificial photosynthesis applications

Melnyk Silvia; Iacob Mihail; Benniston Andrew; Harrington Ross W.; Doroftei Florica; Turta Constantin

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2022-04-15 09:34

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MELNYK, Silvia, IACOB, Mihail, BENNISTON, Andrew, HARRINGTON, Ross W., DOROFTEI, Florica, TURTA, Constantin. Synthesis and properties of a manganese carboxylate cluster and oxide nanoparticles for artificial photosynthesis applications. In: Physical Methods in Coordination and Supramolecular Chemistry, 24-26 octombrie 2012, Chişinău. Chisinau, Republic of Moldova: 2012, XVII, p. 108.

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Physical Methods in Coordination and Supramolecular Chemistry
XVII, 2012

Conferința ""Physical Methods in Coordination and Supramolecular Chemistry""
Chişinău, Moldova, 24-26 octombrie 2012

Synthesis and properties of a manganese carboxylate cluster and oxide nanoparticles for artificial photosynthesis applications

Pag. 108-108

Melnyk Silvia¹², Iacob Mihail¹, Benniston Andrew³, Harrington Ross W.³, Doroftei Florica⁴, Turta Constantin¹

¹ Institute of Chemistry,
² ”Nicolae Testemițanu” State University of Medicine and Pharmacy,
³ Newcastle University,
⁴ “Petru Poni” Institute of Macromolecular Chemistry

Disponibil în IBN: 27 mai 2020

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Interest in manganese carboxy-clusters has increased over the past few decades due to their important role as mimics of photosynthetic processes (water oxidation in photosystemII) [1] and their application as single molecular magnets (SMM) [2]. In this communication we present a μ3-oxo trinuclear mixed-valence manganese cluster with the anion of 2-furoic acid (FCA) of composition [Mn3O(FCA)6(Py)2H2O] (1). The cluster was synthesized by the reaction of Mn(II) acetate, 2-furancarboxylic acid (FCA-H), pyridine and N-n-Bu4MnO4 in ethanol. The cluster was analysed by X-ray crystallography, IR spectroscopy and cyclic voltammetry methods. The complex crystallizes in the monoclinic space group P2, and contains two independent {Mn3O} units in the asymmetric unit. Each metal ion has distorted octahedral geometry environment. The cyclic voltammogram of (1) exhibits a reversibe one-electron oxidation wave at 0.50 V vs Ag/AgCl. Using (1) as a precursor manganese oxide nanoparticles were obtained by thermal decomposition in organic phase under argon atmosphere, in the presence of olive oil and long-chain stabilizers. The materials were mainly characterised by ESEM, EDX and FTIR methods. The obtained results reveal the formation of MnxOy nanoparticles of hexagonal type.figureFig.1 Molecular structure of [Mn3O(FCA)6(Py)2H2O] (1). Fig.2 ESEM bright-field image of the manganese nanoparticles

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<description xml:lang='en' descriptionType='Abstract'><p>Interest in manganese carboxy-clusters has increased over the past few decades due to their important role as mimics of photosynthetic processes (water oxidation in photosystemII) [1] and their application as single molecular magnets (SMM) [2]. In this communication we present a &mu;3-oxo trinuclear mixed-valence manganese cluster with the anion of 2-furoic acid (FCA) of composition [Mn3O(FCA)6(Py)2H2O] (1). The cluster was synthesized by the reaction of Mn(II) acetate, 2-furancarboxylic acid (FCA-H), pyridine and N-n-Bu4MnO4 in ethanol. The cluster was analysed by X-ray crystallography, IR spectroscopy and cyclic voltammetry methods. The complex crystallizes in the monoclinic space group P2, and contains two independent {Mn3O} units in the asymmetric unit. Each metal ion has distorted octahedral geometry environment. The cyclic voltammogram of (1) exhibits a reversibe one-electron oxidation wave at 0.50 V vs Ag/AgCl. Using (1) as a precursor manganese oxide nanoparticles were obtained by thermal decomposition in organic phase under argon atmosphere, in the presence of olive oil and long-chain stabilizers. The materials were mainly characterised by ESEM, EDX and FTIR methods. The obtained results reveal the formation of MnxOy nanoparticles of hexagonal type.</p><p>figure</p><p>Fig.1 Molecular structure of [Mn3O(FCA)6(Py)2H2O] (1). Fig.2 ESEM bright-field image of the manganese nanoparticles</p></description>
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