Your search keyword '"Ilmuratova, Madina S."' showing total 4 results

1. Study of the Oxidation of Phenol in the Presence of a Magnetic Composite Catalyst CoFe 2 O 4 /Polyvinylpyrrolidone.

Author

Shakiyeva, Tatyana V., Dossumova, Binara T., Sassykova, Larissa R., Ilmuratova, Madina S., Dzhatkambayeva, Ulzhan N., and Abildin, Tleutai S.

Subjects

INDUSTRIAL chemistry, COBALT compounds, SCANNING electron microscopy, NITROGEN analysis, CATALYTIC activity

Abstract

The development of new catalytic systems based on cobalt and iron compounds for the production of oxygen-containing compounds is an urgent task of chemical technology. The purpose of this work is the synthesis of CoFe2O4 stabilized with polyvinylpyrrolidone (PVP), the study of the catalyst by physico-chemical research methods, and the determination of the effectiveness of the CoFe2O4/PVP catalyst in the phenol oxidation reaction. In this work, magnetic composites CoFe2O4 and CoFe2O4 stabilized with polyvinylpyrrolidone were synthesized by co-deposition. A comparison of the characteristics of the properties of the synthesized cobalt (II) ferrite (CoFe2O4) and the composite material CoFe2O4/PVP based on it is carried out. The obtained samples were examined using X-ray phase analysis (XRD), the Debye–Scherrer method, scanning electron microscopy (SEM), Mossbauer and IR Fourier spectroscopy, as well as thermogravimetric analysis (TGA). The textural properties were determined based on the analysis of nitrogen isotherms. The catalytic properties of the synthesized materials in the process of phenol oxidation in the presence of hydrogen peroxide are considered. The analysis of the reaction mixtures by HPLC obtained by the oxidation of phenol in the presence of a CoFe2O4/PVP catalyst showed a decrease in the concentration of phenol in the first 15 min of the process (by 55–60%), and then within 30 min, the concentration of phenol decreased to 21.83%. After 2 h of the process, the conversion of phenol was already more than 95%. The final sample after the reaction contained 28% hydroquinone and 50% benzoquinone. It was found that the synthesized magnetic composites exhibit catalytic activity in this process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Catalysts Based on Nanoscale Iron and Cobalt Immobilized on Polymers for Catalytic Oxidation of Aromatic Hydrocarbons: Synthesis, Physico-Chemical Studies, and Tests of Catalytic Activity

Author

Dossumova, Binara T., primary, Sassykova, Larissa R., additional, Shakiyeva, Tatyana V., additional, Ilmuratova, Madina S., additional, Sassykova, Albina R., additional, Batyrbayeva, Aigul A., additional, Zhaxibayeva, Zhanar M., additional, Dzhatkambayeva, Ulzhan N., additional, and Baizhomartov, Bedelzhan B., additional

Published

2023

3. Development of nanostructured catalysts for catalytic oxidative water purification from organic impurities, including phenolic compounds

Author

Sassykova, Larissa R., primary, Dossumova, Binara T., additional, Ilmuratova, Madina S., additional, Shakiyeva, Tatyana V., additional, Baizhomartov, Bedelzhan B., additional, Sassykova, Albina R., additional, Zhaxibayeva, Zhanar M., additional, and Abildin, Tleutai S., additional

Published

2023

4. Catalysts Based on Nanoscale Iron and Cobalt Immobilized on Polymers for Catalytic Oxidation of Aromatic Hydrocarbons: Synthesis, Physico-Chemical Studies, and Tests of Catalytic Activity.

Author

Dossumova, Binara T., Sassykova, Larissa R., Shakiyeva, Tatyana V., Ilmuratova, Madina S., Sassykova, Albina R., Batyrbayeva, Aigul A., Zhaxibayeva, Zhanar M., Dzhatkambayeva, Ulzhan N., and Baizhomartov, Bedelzhan B.

Subjects

AROMATIC compounds, CATALYTIC oxidation, CATALYTIC activity, MAGNETIC nanoparticles, COBALT, POLYMERS

Abstract

It is known that highly efficient catalysts for the catalytic oxidation of aromatic hydrocarbons can be obtained based on magnetic nanoparticles. The development of nanosized magnetically controlled catalysts for the oxidation of aromatic hydrocarbons with oxygen deserves especially close attention in the territory of the Republic of Kazakhstan, which does not have its own industrial production of oxygen-containing compounds. The aim of this work is to create catalysts based on Fe and Co nanoparticles stabilized with polymers: polyvinylpyrrolidone, chitosan, and polyethylenimine, study them by methods of physico-chemical research, and conduct preliminary tests of catalysts to predict their effectiveness. Magnetic nanoparticles were prepared by the co-precipitation method. Based on the results of the SEM analysis, it was concluded that polymers form composites together with metal nanocrystals. According to preliminary data, the most efficient oxidation of phenol in a non-flowing glass gradient-free thermostated duck-type reactor occurs on Fe3O4/chitosan, with the phenol conversion being 55–60%. Tests on the oxidation of phenol with oxygen showed a favorable prognosis for the use of such catalysts for the oxidative conversion of aromatic hydrocarbons in order to obtain valuable intermediates. [ABSTRACT FROM AUTHOR]

Published

2024