Shakieva Tatiana – Candidate of Chemical Sciences, Associate Professor, is a leading highly qualified specialist in the field of homogeneous and heterogeneous catalysis, waste gas and water purification. Recently, he has been developing a technology for producing nanoscale magnetic iron and cobalt composites stabilized with synthetic and natural polymers for various processes as catalysts and sorbents. It has the Hirsch index of the Web of Science and Scopus database – 5. Scopus Author ID: 55911739700.
Tatiana Shakieva graduated with honors from the Graduate School of Chemistry in 1998, continued her postgraduate studies at the Department of Catalysis, Colloidal Chemistry and Petrochemistry in 1999, and defended her PhD thesis in 2001. Since 1998, after completing her master's degree, Shakieva T.V. She began her career at the Research Institute of New Chemical Technologies and Materials as a junior researcher, from 2007 to 2020 she held the position of scientific secretary of the Institute, from 2020 – chief specialist of NAO "KazNU named after al-Farabi" in the department of the Central Agricultural Academy, from 2023 to the present, Acting Director of the Research Institute of NHTiM NAO KazNU named after al-Farabi.- Farabi.
Shakieva T. has more than 18 years of experience in organizing, directing and coordinating research related to the development of priority areas of activity of the Research Institute of New Chemical Technologies and Materials. He has significant experience in managing research teams, planning and implementing complex projects of a fundamental and applied nature. Under her leadership, research was conducted aimed at the development and implementation of new materials and technologies, as well as their practical application.
Shakieva T. was the responsible executor of the project "Industrial Wastewater Phenols: Extraction, Conversion and Degradation" of the NATO Science for Peace Program (2006-2008), "Development of scientific foundations and technologies for the creation of new promising materials for various functional purposes" (2006-2008), the project "Conducting an examination of innovations to identify new chemical technologies and materials using radiation modification methods for the development of nuclear technologies in the Nuclear Technology Park" with JSC "Nuclear Technology Park" (2007).
She was the head of the PCF (2018-2020) "Development of technology for the production of new multifunctional porous magnetically controlled nanoscale materials based on fly ash cenospheres for immobilization, curing and neutralization of radiation waste", project manager "Development of technology for the catalytic petrochemical synthesis of oxygen-containing compounds from aromatic hydrocarbons in the presence of nanoscale magnetic composites" (2021-2023)., Co-director of the project "Technology of extraction and disposal of toxic compounds of industrial wastewater" (2022-2024).
Currently, he is the head of the PCF (2024-2026) BR24992935 "Development of new innovative materials for efficient carbon dioxide utilization technologies while producing valuable products" and the responsible executor of the AP26199999 project (2025-2027) "Development of magnetic composite nanosorbents for removing pollutants from aquatic environments".
As part of the previously performed research, magnetically controlled sorption materials based on humic acids obtained from Kazakh coals with chemically fixed iron oxides were developed. The obtained materials ensure effective binding and removal of heavy metal ions and radionuclides from natural and man-made environments using magnetic separation. The developments were implemented within the framework of the project of JSC "National Scientific and Technological Holding "Parasat": to create pilot production of humates from Kazakh coals.
They also co-authored technologies for the synthesis of microspherical magnetically controlled aluminosilicate materials based on cenospheres of thermal power plant entrainment ash intended for the immobilization and neutralization of radioactive waste. The created nanoscale magnetic composites have a developed specific surface area (>50 m2/g), which ensures their high sorption efficiency, and also exhibit high catalytic activity in cracking, dehydrogenation, and oxidation of organic compounds. As a result of the AP09260687 project, a unique highly efficient, environmentally friendly, cost-effective nano- and biotechnology for wastewater treatment contaminated with phenols was created by transforming the pollutant into non-hazardous or useful substances using magnetic composites.
The AP14870308 project shows for the first time the possibility of using synthesized magnetic composites stabilized with polyvinylpyrrolidone and chitosan based on Fe3O4 and CoFe2O4 for the oxidation of p-xylene with oxygen to produce oxygen–containing compounds - n-toluylaldehyde, dibutyl phthalate, benzoic acid, which are the initial reagents for the production of medicines, resin hardeners for special purposes, compositions of aromatic substances. In the form of a mixture, these compounds can be used as plasticizers of polymer materials. An equipment and technological scheme and technological regulations for the production of functional hybrid materials have been developed for all processes.
Under her leadership, protectI have completed 1 PhD thesis. Received 6 patents of the Republic of Kazakhstan, 2 monographs. He has co-authored more than 150 papers in journals in Kazakhstan and abroad, including journals indexed by the Web of Science or Scopus databases.
Kairzhan TUREZHANOV
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