Potassium Complexes of Quercetin-5′-Sulfonic Acid and Neutral O-Donor Ligands: Synthesis, Crystal Structure, Thermal Analysis, Spectroscopic Characterization and Physicochemical Properties

Potassium Complexes of Quercetin-5′-Sulfonic Acid and Neutral O-Donor Ligands: Synthesis, Crystal Structure, Thermal Analysis, Spectroscopic Characterization and Physicochemical Properties

The coordination ability of QSA<sup>−</sup> ligand towards potassium cations was investigated. Potassium complex of quercetin-5’-sulfonate of the general formula [KQSA(H<sub>2</sub>O)<sub>2</sub>]<sub>n</sub> was obtained. The [KQSA(H<sub>2</s...

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Autores principales: Urszula Maciołek, Ewaryst Mendyk, Małgorzata Kosińska-Pezda, Daniel M. Kamiński, Anna E. Kozioł
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
quercetin-5′-sulfonic acid
polymeric potassium complexes
acetone solvate
DMSO solvate
crystal structure
thermal analysis
Technology
T
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Engineering (General). Civil engineering (General)
TA1-2040
Microscopy
QH201-278.5
Descriptive and experimental mechanics
QC120-168.85
Acceso en línea:https://doaj.org/article/0ff3715ec581413abbb2efadd8bda195
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Sumario:The coordination ability of QSA<sup>−</sup> ligand towards potassium cations was investigated. Potassium complex of quercetin-5’-sulfonate of the general formula [KQSA(H<sub>2</sub>O)<sub>2</sub>]<sub>n</sub> was obtained. The [KQSA(H<sub>2</sub>O)<sub>2</sub>] (<b>1</b>) was a starting compound for solvothermal syntheses of acetone (<b>2</b>) and dimethylsulfoxide (<b>3</b>) complexes. For the crystalline complexes <b>1</b>–<b>3</b>, crystals morphology was analyzed, IR and Raman spectra were registered, as well as thermal analysis for 1 was performed. Moreover, for <b>1</b> and <b>3,</b> molecular structures were established. The potassium cations are coordinated by eight oxygen atoms (KO<sub>8</sub>) of a different chemical nature; coordinating groups are sulfonic, hydroxyl, and carbonyl of the QSA<sup>−</sup> anion, and neutral molecules—water (<b>1</b>) or DMSO (<b>3</b>). The detailed thermal studies of <b>1</b> confirmed that water molecules were strongly bonded in the complex structure. Moreover, it was stated that decomposition processes depended on the atmosphere used above 260 °C. The TG–FTIR–MS technique allowed the identification of gaseous products evolving during oxidative decomposition and pyrolysis of the analyzed compound: water vapor, carbon dioxide, sulfur dioxide, carbonyl sulfide, and carbon monoxide. The solubility studies showed that <b>1</b> is less soluble in ethanol than quercetin dihydrate in ethanol, acetone, and DMSO. The exception was aqueous solution, in which the complex exhibited significantly enhanced solubility compared to quercetin. Moreover, the great solubility of <b>1</b> in DMSO explained the ease of ligand exchange (water for DMSO) in [KQSA(H<sub>2</sub>O)<sub>2</sub>].

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