Abstract
The interest in decavanadate anions has increased in recent decades, since these clusters show interesting applications as varied as sensors, batteries, catalysts, or new drugs in medicine. Due to the capacity of the interaction of decavanadate with a variety of biological molecules because of its high negative charge and oxygen-rich surface, this cluster is being widely studied both in vitro and in vivo as a treatment for several global health problems such as diabetes mellitus, cancer, and Alzheimer’s disease. Here, we report a new decavanadate compound with organic molecules synthesized in an aqueous solution and structurally characterized by elemental analysis, infrared spectroscopy, thermogravimetric analysis, and single-crystal X-ray diffraction. The decavanadate anion was combined with 2-aminopyrimidine to form the compound [2-ampymH]6[V10O28]·5H2O (1). In the crystal lattice, organic molecules are stacked by π–π interactions, with a centroid-to-centroid distance similar to that shown in DNA or RNA molecules. Furthermore, computational DFT calculations of Compound 1 corroborate the hydrogen bond interaction between pyrimidine molecules and decavanadate anions, as well as the π–π stacking interactions between the central pyrimidine molecules. Finally, docking studies with test RNA molecules indicate that they could serve as other potential targets for the anticancer activity of decavanadate anion.
Highlights
Polyoxidometalates (POMs) are defined as clusters made from early transition-metals, typically d0 species V(V), Nb(V), Ta(V), Mo(VI), and W(VI), bridged by oxide anions
The decavanadate anion is a very useful cluster in coordination chemistry as a building block for various structures. Since they have a high negative charge and oxygen-rich surfaces, interactions between this anion and metals or organic ligands are formed by coordination or hydrogen bonds [39]
Using theoretical studies based on Density Functional Theory (DFT) calculations and atoms in molecules (AIM), the non-covalent interactions present in the compound were studied
Summary
Polyoxidometalates (POMs) are defined as clusters made from early transition-metals, typically d0 species V(V), Nb(V), Ta(V), Mo(VI), and W(VI), bridged by oxide anions. Interesting POMs with anticancer [2] and antibiotic activities [3], among others, have been obtained to date In this context, the colorless aqueous solution of vanadate(V) turns orange as it acidifies. At pH ≈ 6, the orange solution indicates that the decavanadate anion, [HnV10O28](6−n)− with n = 0–4, has been formed [4,5] These clusters have attracted much interest due to their potential applications in a wide range of uses such as sensors [6], batteries [7,8,9], catalysts [10,11,12], or metallodrugs [13,14,15]
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