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Dr. Natasa Knezevic | Environmental and Green Processes | Best Researcher Award

Dr. Natasa Knezevic | “VINČA” Institute of Nuclear Sciences National Institute of thе Republic of Serbia | Serbia

Dr. Natasa Knezevic is a Serbian researcher and emerging scientist in the field of environmental and chemical engineering, currently pursuing her Ph.D. in Environmental Engineering at the Faculty of Technology and Metallurgy, University of Belgrade. She is affiliated with the “VINCA” Institute of Nuclear Sciences – National Institute of the Republic of Serbia, where she serves as a Research Assistant. Her academic and research expertise encompasses instrumental analysis, organic synthesis and material characterization, adsorption processes on bio-based materials, composites, and the development of green methods for sustainable waste management. Dr. Knežević holds dual master’s degrees in Biochemical Engineering and Biotechnology, and in Environmental Engineering from the University of Belgrade. She has also gained international experience as a visiting researcher at the University of Ljubljana, Slovenia, and participated in multiple applied science and environmental innovation projects. Her scientific output includes over 12 peer-reviewed publications, around 150 citations, and an h-index of 6, reflecting her growing influence in the field of environmental materials and green technologies. She has received numerous honors, including the Panta S. Tutundžić Award for academic excellence, the Best Technological Innovation Award (2021) from the Ministry of Environmental Protection of Serbia, and recognition for the Best Start-Up Ideas initiative by Coca-Cola Youth Support. Alongside her scientific career, she is an active volunteer, team leader, and ambassador at the University of Belgrade’s Center for Career Development. Fluent in Serbian, English, and Russian, Dr. Knežević combines technical proficiency in tools like SuperPro Designer, OriginPro, ChemDraw, and Python with strong communication, leadership, and organizational skills, making her a dynamic and versatile young researcher in environmental innovation and sustainable engineering.

Profiles: Scopus Orcid 

Featured Publications

Abduarahman, M. A., Vuksanovic, M. M., Knezevic, N., Banjanac, K., Milosevic, M., Velickovic, Z., & Marinkovic, A. (2024). MgAl-layered double hydroxide-coated bio-silica as an adsorbent for anionic pollutants removal: A case study of the implementation of sustainable technologies. International Journal of Molecular Sciences, 25(21), 11837.

Brzić, S., Knezevic, N., Kovacevic, T., Vuksanovic, M., Marinkovic, A., & Grzetic, J. (2024). Furoic acid-based (non)energetic plasticizers for solid composite propellants production. Scientific Technical Review, 74(1), 50–57.

Cujic, M., Knezevic, N., Zivković, F., & Jankovic Mandic, L. (2025). Radiation technology in polymer waste recycling and upcycling: Mechanisms, applications, and prospects. Metallurgical and Materials Data.

Cujic, M., Knezevic, N., Zivković, F., & Jankovic Mandic, L. (2025). Radiation technology in the light of polymer waste recycling. Metallurgical & Materials Engineering Congress of South-East Europe.

Embirsh, H. S. A., Vuksanovic, M. M., Mladenovic, I. O., Knezevic, N., Milosevic, M., Mijatov, S., Jancic Heinemann, R., & Marinković, A. (2024). Unsaturated polyester resin-based composites: A case study of lignin valorisation. Chemosphere, 352, 142144.

Knezevic, N., Vuksanovic, M., & Marinkovic, A. (2025). Enhanced mechanical strength and controlled biodegradability of bio-membranes synthesized from waste hemp fibers. Metallurgical and Materials Data.

Knezevic, N., Vuksanovic, M., & Marinkovic, A. (2025). Mechanical and biodegradability properties of synthesized bio-membranes from waste hemp fibers. Metallurgical & Materials Engineering Congress of South-East Europe.

Knezevic, N., Vuksanovic,, M. M., Banjanac, K., Pantic, K., Velickovic, Z., Cvijetic, I., Marinkovic, A., & Miloševic, M. (2024). Cationic waste hemp fibers-based membrane: Case study of anionic pollutants removal through environmentally friendly processes. Journal of Environmental Management, 361, 123174.

Savic, A., Vuksanovic, M. M., Savic, M., Knezevic, N., SaponjiC, A., IliC, S., & Egelja, A. (2025). Modified silica particles coated with Cu–Al layered double hydroxide for phosphate and arsenate removal in water treatment. Molecules, 30(10), 2138.

Natasa Knezevic | Environmental and Green Processes | Best Researcher Award

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