Your search keyword '"Asanov IP"' showing total 2 results

1. Unusual Square Pyramidal Chalcogenide Mo 5 Cluster with Bridging Pyrazolate-Ligands.

Author

Savina IV, Ivanov AA, Evtushok DV, Gayfulin YM, Komarovskikh AY, Syrokvashin MM, Ivanova MN, Asanov IP, Eltsov IV, Kuratieva NV, Mironov YV, and Shestopalov MA

Subjects

Models, Molecular, Ligands, Crystallography, X-Ray, Molybdenum chemistry

Abstract

The family of chalcogenide molybdenum clusters is well presented in the literature by a series of compounds of nuclearity ranging from binuclear to multinuclear articulating octahedral fragments. Clusters actively studied in the last decades were shown to be promising as components of superconducting, magnetic, and catalytic systems. Here, we report the synthesis and detailed characterization of new and unusual representatives of chalcogenide clusters: square pyramidal complexes [{Mo 5 (μ 3 -Se) i 4 (μ 4 -Se) i (μ-pz) i 4 }(pzH) t 5 ] 1+/2+ (pzH = pyrazole, i = inner, t = terminal). Individually obtained oxidized (2+) and reduced (1+) forms have very close geometry (proven by single-crystal X-ray diffraction analysis) and are able to reversibly transform into each other, which was confirmed by cyclic voltammetry. Comprehensive characterization of the complexes, both in solid and in solution, confirms the different charge state of molybdenum in clusters (XPS), magnetic properties (EPR), and so on. DFT calculations complement the diverse study of new complexes, expanding the chemistry of molybdenum chalcogenide clusters.

Published

2023

2. In-Situ Electrochemical Exfoliation and Methylation of Black Phosphorus into Functionalized Phosphorene Nanosheets.

Author

Kuchkaev AM, Kuchkaev AM, Sukhov AV, Saparina SV, Gnezdilov OI, Klimovitskii AE, Ziganshina SA, Nizameev IR, Asanov IP, Brylev KA, Sinyashin OG, and Yakhvarov DG

Subjects

Methylation, Electrodes, Phosphorus, Protein Processing, Post-Translational, Commerce

Abstract

Two-dimensional black phosphorus (BP) has attracted great attention as a perspective material for various applications. The chemical functionalization of BP is an important pathway for the preparation of materials with improved stability and enhanced intrinsic electronic properties. Currently, most of the methods for BP functionalization with organic substrates require either the use of low-stable precursors of highly reactive intermediates or the use of difficult-to-manufacture and flammable BP intercalates. Herein we report a facile route for simultaneous electrochemical exfoliation and methylation of BP. Conducting the cathodic exfoliation of BP in the presence of iodomethane makes it possible to generate highly active methyl radicals, which readily react with the electrode's surface yielding the functionalized material. The covalent functionalization of BP nanosheets with the P-C bond formation has been proven by various microscopic and spectroscopic methods. The functionalization degree estimated by solid-state 31 P NMR spectroscopy analysis reached 9.7%.

Published

2023