Р М Отарова scite author profile

Р М Отарова

4Publications

2Citation Statements Received

2Citation Statements Given

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Affiliations

Kabardino-Balkarian State University

Publications

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Influence of Different Factors on the Oxidizing Polymerization of 3-Amino-3 ́-Nitrodiphenylazomethine and some Properties of the Received Polymer

Борукаев

Отарова

Salamov

et al. 2020

KEM

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The oxidative polymerization of 3-amino-3 ́-nitro-diphenylazomethine was carried out in various ways. In this case, the effect of the concentration of monomer and initiator, their ratio, temperature and reaction time, on the yield and molecular weight of the polymer was studied. The morphology is established, the size of the polymer particles and their distribution are determined. It is shown that the synthesized polymer has increased electrical conductivity and is active in redox processes.

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New Azomethine Compounds on the Basis <i>m</i>-Phenylenediamine and Substituted Benzaldehydes Capable of Oxidative Polymerization

Борукаев¹,

Mazloeva²,

Отарова³

et al. 2018

OJPChem

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Low-temperature condensation of m-phenylene diamine and various aromatic aldehydes (benzaldehyde, m-, o-nitrobenzaldehyde, p-diethylaminobenzaldehyde, o-, p-hydroxybenzaldehyde and 4-hydroxy-3,5-ditert-butylbenzaldehyde) in the ethyl alcohol medium synthesized new azomethine compounds. With the help of spectral methods and elemental analysis, the structure of the azomethine compounds obtained was confirmed. It was founded that irradiation of azomethine compounds with UV light at a wavelength of 300 -330 nm results in their emission. The luminescent properties of the resulting compounds are due to the presence of chromophore azomethine groups in the molecule structure. In particular, the π-electrons of the azomethine bonds can undergo irradiation to a different energy levels, accompanied by fluorescence. It was shown that synthesized azomethine compounds are capable of oxidative polymerization. Based on azomethine compounds in hydrochloric acid solution synthesized polymers with conjugated bonds, which had low molecular-mass characteristics. It is shown that the oxidative polymerization of azomethines proceeds through a slow (one-electron transfer) and rapid (recombination of the radical cations) stage.

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Синтез Бензилиденфенилендиаминов На Основе М-Фенилендиамина И Замещенных Бензальдегидов

Борукаев¹,

Хадаева²,

Лабазанова³

et al. 2017

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Kinetic of Oxidative Polymerization of Benzylidene-Phenylenediamines and Investigation of their Thermal Properties

Борукаев¹,

Шаов²,

Отарова³

et al. 2019

KEM

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Oxidative polymerization of benzylidenephenylenediamines produced polymers containing conjugated double bonds. Kinetic studies of the processes of oxidative polymerization of benzylidenephenylene diamines were carried out. The obtained kinetic dependencies allowed us to suggest the mechanism of oxidative polymerization of benzylidenephenylenediamines, which flows through the stage of formation of the cation radical, dimmer, tetramer, leading eventually to the formation of the polymer. In this case the limiting stadia is the formation of cation-radical, and chain growth occurs by N-C. A study of the thermal properties of the polymers showed that polybenzylidenephenylenediamines is characterized by rather high values of heat resistance. It was found that the process of destruction of most of the synthesized polymers occurs in several stages and depends on the chemical structure of the macromolecule.

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