Md. Golam Sarowar | Nanocomposite | Best Researcher Award

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Mr. Md. Golam Sarowar | Nanocomposite | Best Researcher Award

Mr. Md. Golam Sarowar | Nanocomposite | Senior Techno-Marketing Executive at Torrecid Group | Bangladesh

Mr. Md. Golam Sarowar is a distinguished Materials Science and Engineering professional with over four years of experience in product development, techno-marketing, and research. He earned his B.Sc. in Materials Science and Engineering from the University of Rajshahi. His professional journey includes roles at Torrecid Bangladesh Limited, where he progressed from Service Engineer to Senior Techno-Marketing Executive, and at Hossain Pulp & Paper Mills Ltd. as a Lab and R&D Engineer. Mr. Sarowar’s research interests encompass advanced ceramics, perovskite materials, and energy storage solutions. He has authored impactful publications in journals such as Results in Materials and Next Materials, focusing on topics like lead titanate ceramic-reinforced polymer nanocomposites and Bi/Ti-based lead-free perovskites. His work has garnered significant citations, reflecting its influence in the field. Mr. Sarowar actively engages with the research community, contributing to IEEE and ACM initiatives and mentoring junior researchers. His strengths lie in his multidisciplinary approach, technical proficiency, and leadership skills. Areas for improvement include expanding international collaborations and diversifying applied industrial research. Future research directions may involve exploring next-generation energy storage materials, scalable manufacturing techniques for functional ceramics, and integrating AI-driven materials design. In conclusion, Mr. Sarowar’s blend of academic excellence, professional expertise, and leadership potential positions him as a promising candidate for recognition in the field of Materials Science and Engineering.

Academic Profile: ORCID

Featured Publications:

  1. Sarowar, M. G., & Hoque, M. A. (2025). Synthesis and characterization of lead titanate (PbTiO₃) ceramic reinforced polymer matrix nanocomposite. Results in Materials. [Citations: 12]

  2. Sarowar, M. G. (2025). Hydrothermal synthesis and characterization of Bi/Ti-based lead-free crystalline [Ba₁₋ₓKₓ][Bi₁₋ₓTix]O₃ perovskite materials. Next Materials. [Citations: 8]

  3. Sarowar, M. G. (2025). Metal-organic frameworks in energy storage & conversion: Bridging the gap to application. Results in Materials. [Citations: 5]

 

 

Nataliya Babayevska | Material Science | Best Researcher Award

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Prof . Nataliya Babayevska | Material Science | Best Researcher Award

Prof . Nataliya Babayevska | Material Science | Nano BioMedical Centre at Adam Mickiewicz University | Poland

Prof. Nataliya Babayevska is a distinguished materials scientist with extensive expertise in nanomaterials, particularly zinc oxide (ZnO)-based nanosystems, multifunctional hybrid nanocomposites, and their biomedical applications. She earned her Ph.D. in Materials Science, demonstrating exceptional academic rigor and innovative research capabilities. Prof. Babayevska has accumulated significant professional experience leading international collaborative projects involving synthesis, characterization, and functionalization of nanostructures for antibacterial, drug delivery, bioimaging, and biosensing applications. Her research interests focus on the design of multifunctional nanosystems, photoluminescence-based immunosensors, nanostructured drug carriers, and the development of advanced biomaterials for healthcare technologies. She possesses strong research skills in materials synthesis, structural and morphological characterization, cytotoxicity and antibacterial assays, photoluminescence analysis, and nanocomposite fabrication. Prof. Babayevska has made notable contributions to the scientific community with over 30 Scopus-indexed publications, high citation metrics, and a proven record of translational research bridging fundamental nanomaterials science with practical biomedical applications. She has actively participated in peer review for high-impact journals and served in leadership roles in collaborative research projects, fostering mentorship and interdisciplinary collaboration. Her memberships in professional organizations, including IEEE and ACM, demonstrate her engagement with global scientific networks. Prof. Babayevska has received multiple honors and recognitions for her contributions to nanomaterials and biomedical research, reflecting her sustained excellence and international reputation. Areas for continued development include broadening clinical applications of her nanosystems and integrating computational modeling for predictive material design. In conclusion, Prof. Nataliya Babayevska’s exceptional research profile, leadership in international projects, and prolific publication record underscore her outstanding potential to advance nanomaterial applications in healthcare, biosensing, and bioimaging, positioning her as a globally recognized scientist whose ongoing contributions are expected to make a significant impact on both academic research and applied biomedical technologies.

Academic Profile: ORCID | Scopus

Featured Publications:

  1. Babayevska, N., Kustrzyńska, K., Przysiecka, Ł., Jarek, M., Jancelewicz, M., Iatsunskyi, I., … Janiszewska, E. (2025). Doxorubicin and ZnO-loaded gadolinium oxide hollow spheres for targeted cancer therapy and bioimaging. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. Citations: 5

  2. Myndrul, V., Yanovska, A., Babayevska, N., Korniienko, V., Diedkova, K., Jancelewicz, M., … Iatsunskyi, I. (2024). 1D ZnO–Au nanocomposites as label-free photoluminescence immunosensors for rapid detection of Listeria monocytogenes. Talanta. Citations: 12

  3. Babayevska, N., Przysiecka, Ł., Iatsunskyi, I., Nowaczyk, G., Jarek, M., Janiszewska, E., … Jurga, S. (2023). Author correction: ZnO size and shape effect on antibacterial activity and cytotoxicity profile. Scientific Reports. Citations: 8

  4. Babayevska, N., Woźniak, A., Iatsunskyi, I., Florczak, P., Jarek, M., Janiszewska, E., … Zalewski, T. (2023). Multifunctional ZnO:Gd@ZIF-8 hybrid nanocomposites with tunable luminescent-magnetic performance for potential bioapplication. Biomaterials Advances. Citations: 15

  5. Babayevska, N., Iatsunskyi, I., Florczak, P., Jarek, M., Janiszewska, E., Woźniak, A., … Jurga, S. (2022). MXene nanoflakes decorating ZnO tetrapods for enhanced performance of skin-attachable stretchable enzymatic electrochemical glucose sensor. Biosensors and Bioelectronics. Citations: 20