Official

Bexeitova Kalampyr Sunakbayevna

Master of Technical Sciences

Researcher

Researchers of Satbayev University holding

Laboratory of engineering profile

Email: kalampyr.bexeitovas@gmail.222

H-index:

Professional biography / Education
Scientific projects
Publications
CQAES

Professional biography

Bexeitova Kalampyr is a doctoral student (2020-2024) specializing in "Nanomaterials and Nanotechnology" in the field of chemistry at the Faculty of Chemistry and Chemical Technology of Al-Farabi Kazakh National University. Kalampyr Bexeitova's scientific activity encompasses various aspects of the study of nanomaterials and nanotechnology, with a focus on the problem of microplastics and their impact on aquatic ecosystems. She is actively involved in developing technologies for the removal of microplastics from water systems and researching the effects of these pollutants on the environment. Kalampyr is also actively participating in scientific projects funded by grants and targeted programs aimed at developing innovative technologies in the fields of medicine and agriculture. Among these projects are studies on the sorption of wound exudates using carbon nanoporous materials, the development of technology for producing a carbon nanosorbent for medical purposes, and the creation of new dressings with sorption and bactericidal properties. ORCID ID-0000-0002-5510-7660

Education

2008-2012

050607-Biology - International Kazakh-Turkish University named after K.A. Yassavi, Faculty of Natural Sciences, specialty – scientific biologist.

2012-2014

6M060700-Biology - Al-Farabi Kazakh National University, Faculty of Biology and Biotechnology, specialty – scientific biologist.

2020-2024

8D07113 – Nanomaterials and nanotechnology in chemistry, Al-Farabi Kazakh National University, Faculty of Chemistry and Chemical Technology.

Scientific projects

1.Grant funding: No. AP14869499 - "Plasma water purification for the degradation of persistent polymeric and organic pollutants: from micro- to nanoparticles to molecules."

2.Grant funding - Life Sciences Priority: "Study of the processes of sorption of wound discharge by carbon nanoporous materials with a high healing effect"; No. 1493/GF4

3.Program-targeted financing - Priority "Rational use of natural resources, processing of raw materials and products":

"Development of domestic technology for obtaining innovative products according to the standards of developed countries - Carbon nanosorbent "INGO-2" for medical purposes"; 2015-2017 No. 0134/PCF

4.Program-targeted financing - Priority "Life Sciences and Health". "Development of technology for improving the quality of basic mass-market products (bakery and fermented milk products) with the addition of enterosorbent dietary fiber."; 2018-2020 IRN-BR05236520

5.Grant funding - Priority "Sustainable development of the agro-industrial complex and safety of agricultural products": "Development of an innovative technology for obtaining a premix from plant materials to improve the protein value of local feed for cattle"; 2021-2023 IRN-AP09058425

6.Commercialization project - No. 0095-17-GK "Creation of a technological line for the production of pharmaceutical enterosorbents". 2017-2020.

7.Commercialization project - No. 0097-17-GK "Creation of the first production of domestic laminar flow hemosorbents". 2017-2020.

8.Commercialization project - No. 0097-17-GK No. 0009-18-GK "Creation of a technological line of fundamentally new sorption-bactericidal dressings". 2017-2020.

Publications

1.Bexeitova, K., Zhantikeyev, U., Yeszhan, Y., Sapargali, I., Kudaibergenov, K., Toshtay, K., Mikhalovsky, S., Amrousse, R., Berndtsson, R., & Azat, S. (2023). Evaluating Microplastic Detection Techniques in Human-Impacted Water Systems: A Mini-Review. Environmental Science and Engineering (Q: 1). DOI: https://dx.doi.org/10.30919/esee1233.

2.Bexeitova, K., Baimenov, A., Varol, E.A., Kudaibergenov, K., Zhantikeyev, U., Sailaukhanuly, Y., Toshtay, K., Tauanov, Z., & Azat, S. (2024). Microplastics in freshwater systems: A review of classification, sources, and environmental impacts. Chemical Engineering Journal Advances (IF: 5.5, Q: 1). DOI: https://doi.org/10.1016/j.ceja.2024.100649.

3.Kunasheva, Z., Kubasheva, R., Kuzmina, R., Utepkalieva, G., Erzhanova, N., Aituganova, S., Kiisheva, D., & Bexeitova, K. (2023). Physical and Chemical Features of the Thermolysis of Wastewater Sludge. Engineering Sciences (Q: Not Available). DOI: https://dx.doi.org/10.30919/es991.

4.Azat, S., Sartova, Zh., Bekseitova, K., & Askaruly, K. (2019). Extraction of high-purity silica from rice husk via hydrochloric acid leaching treatment. Turkish Journal of Chemistry (IF: 1.0, Q: 3). Available online: 07/16/2019, DOI: 10.3906/kim-1903-53.

5.Askaruly, K., Azat, S., Sartova, Z., Yeleuov, M., Kerimkulova, A., & Bekseitova, K. (2020). Obtaining and characterization of amorphous silica from rice husk. Journal of Chemical Technology and Metallurgy (IF: 0.6, Q: 3). Available online: https://dl.uctm.edu/journal/web/j2020-1.

6.Sailaukhanuly, Y., Popova, A., Mansur, T., Bexeitova, K., Azat, S., Toshtay, K., Tovassarov, A., & Tasmagambetova, A. (2022). Preliminary Study and Assessment of Drinking Water from Almaty, Kazakhstan. Eurasian Chemical Technology Journal, 24, 341‒350. DOI: https://doi.org/10.18321/ectj1478.

7.Azat, S., Zhantikeyev, U., Askaruly, K., Bexeitova, K., Sailaukhanuly, Y., Toshtay, K., Tauanov, Z., & Ybyraiymkul, D. (2023). Diversity and Applications of New Age Nanoparticles: Synthesis of Nanoparticles of SiO2 From Rice Husk and Its Industrial Application. In Department of Mechanical Engineering, Bharat Institute of Engineering and Technology, India, April 2023 (Pages: 300). DOI: 10.4018/978-1-6684-7358-0.

8.Bekseitova, K., Baimenov, A., Zhantikeyev, U., Sailaukhanuly, E.A., Esin, A.V., Mikhalovskiy, S., & Azat, S. (2024). Fresh Water Pollution with Microplastics: Sources, Consequences and Mitigation Strategies (Literature Review). Bulletin of the National Nuclear Center of the Republic of Kazakhstan, Issue 1, March 2024, No. 34. DOI: https://doi.org/10.52676/1729-7885-2024-1-34-44.

9.Bexeitova, K., Baimenov, A., Varol, E.A., Kudaibergenov, K., Mikhalovsky, S., & Azat, S. (2023). Microplastics Pollution of Freshwater Ecosystems. In Polymers, Composites, Nanocomposites & Biocomposites-2023: Book of Abstracts of the International Conference (ICPCNB-2023), Satbayev University, Almaty, 2023, 110 RUR.

10.Bexeitova, K., Baimenov, A., Varol, E.A., Zhantikeyev, U., & Azat, S. (2024). Preparation of Carbonaceous Sorption Material for its Possible Utilization in the Removal of Microplastics from Water. Carbon Conference, Sabanci University, Performing Arts Center (SGM), Istanbul, Turkey, 28-29 March 2024. Available online: https://karbondernegi.org/ukk/.

11.Zhantikeyev, U., Kunarbekova, M., Bekseitova, K., Sailaukhanuly, E., Toshtay, K., Tauanov, J., Kudaibergenov, K., & Azat, S. (2023). Development of Technology for Water Purification from Microplastics. Conference on Fundamental and Practical Aspects of Functional Polymers, International level, Uzbekistan, Tashkent, 17-18 March 2023.

Patents:

1.PM No. 2348 – Enterosorbent; authors: Mansurov Z.A., Aknazarov S.Kh. Biysenbaev M.A., Tuleibaeva A.S., Nuraly A.M., Bekseitova K.S., Pavlyukov A.V.

2.PM No. 2390 - Sorption-bactericidal dressing; Authors: Bekseitova K.S., Mansurov Z.A., Aknazarov S.Kh., Biysenbaev M.A., Tuleybaeva A.S., Nuraly A.M.,

3.PM 2389 – “Wound healing bandage”; Authors: Bekseitova K.S., Mansurov Z.A., Aknazarov S.Kh., Biysenbaev M.A., Tuleybaeva A.S., Nuraly A.M.,

4.IZ 33400 - "Method for obtaining a ballast composite of organic dietary fiber from rice husk"; Authors: Biysenbaev M.A., Sinyavsky Yu.A., Nuraly A.M., Tuleibaeva A.S., Bekseitova K.S., Yesimsiitova Z.B.,

5.DE: 20 2019 102 811.4 – European patent for utility model “DEVICE FOR PERFUSION DETOXIFICATION OF BLOOD” in Germany

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