Ioana Stefanescu | Bioremediation | Innovative Research Award

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Innovative Research Award

Ioana Stefanescu
University Vasile Alecsandri of Bacau, Romania
Ioana Stefanescu
Affiliation University Vasile Alecsandri of Bacau
Country Romania
Scopus ID 56581585000
Documents 9
Citations 60 Citations by 59 documents
h-index 3
Subject Area Bioremediation
Event International Invention Awards
ORCID 0000-0002-3174-5940

The Innovative Research Award recognizes notable scholarly contributions in the interdisciplinary field of bioremediation and environmental sustainability. Ioana Stefanescu of the University Vasile Alecsandri of Bacau has developed a research profile associated with environmental restoration methodologies, pollutant mitigation strategies, and applied ecological innovation. Her scholarly record indexed within Scopus demonstrates participation in academic investigations addressing environmental contamination and remediation processes.[1]

Abstract

Ioana Stefanescu has contributed to research activities associated with bioremediation, environmental sustainability, and ecological assessment methodologies. Her academic profile demonstrates engagement with interdisciplinary environmental sciences, particularly concerning remediation technologies and pollution management frameworks. Indexed publications and citation metrics indicate scholarly dissemination and growing academic recognition within environmental and applied scientific domains.[2]

Keywords

  • Bioremediation
  • Environmental Sustainability
  • Pollution Mitigation
  • Ecological Restoration
  • Environmental Research
  • Innovative Research Award

Introduction

Bioremediation represents an important scientific discipline involving the application of biological systems for the treatment and removal of environmental contaminants. Research in this area has expanded significantly because of increasing industrialization and environmental concerns. Scholars working in this domain frequently investigate sustainable remediation strategies designed to improve environmental resilience and ecological health.[3]

Ioana Stefanescu has contributed to academic discussions surrounding environmental remediation and ecological management. Her institutional affiliation with the University Vasile Alecsandri of Bacau has supported interdisciplinary scientific collaboration and publication activity focused on environmental sustainability and applied ecological sciences.[1]

Research Profile

The research profile of Ioana Stefanescu reflects activity within environmental sciences and remediation-related investigations. According to Scopus indexing data, the researcher has authored or co-authored multiple scholarly documents that collectively contributed to citation accumulation across related scientific literature.[1]

  • Scopus-indexed scholarly publications.
  • Research engagement in environmental remediation studies.
  • Interdisciplinary environmental science collaboration.
  • Citation activity demonstrating scholarly visibility.
  • Academic contributions relevant to sustainable environmental practices.

Research Contributions

The scholarly contributions associated with Ioana Stefanescu involve applied research frameworks relevant to ecological remediation and sustainable environmental management. Bioremediation research commonly integrates microbiological processes, pollutant degradation pathways, and environmental monitoring systems to improve remediation efficiency.[4]

Research outputs connected to environmental restoration often contribute to broader scientific understanding concerning soil contamination, water treatment methodologies, and sustainable remediation technologies. Such contributions support academic discourse surrounding environmental protection and ecological sustainability initiatives.

Publications

The publication portfolio indexed within Scopus demonstrates participation in peer-reviewed academic dissemination activities relevant to environmental sciences and remediation technologies.[1]

  1. Environmental remediation studies associated with sustainable pollution mitigation frameworks.
  2. Research articles related to ecological monitoring methodologies and environmental assessment systems.
  3. Applied scientific investigations addressing remediation technologies and ecological restoration strategies.

Selected scholarly records and publication metadata are available through Scopus and ORCID indexing systems.[2]

Research Impact

Citation metrics provide a quantitative indication of scholarly influence within academic literature. The available indexing information indicates that Ioana Stefanescu has accumulated citations across multiple documents, reflecting academic engagement and visibility within environmental science research communities.[1]

  • Scopus Documents: 9
  • Total Citations: 60
  • Citing Documents: 59
  • h-index: 3

Research visibility within indexed databases contributes to institutional reputation and facilitates interdisciplinary scientific communication across international academic networks.

Award Suitability

The Innovative Research Award recognizes researchers demonstrating scholarly engagement, interdisciplinary investigation, and measurable academic contributions within their respective disciplines. Ioana Stefanescu’s documented research profile, publication activity, and environmental science contributions align with the thematic objectives commonly associated with innovation-oriented academic recognition programs.

The researcher’s involvement in bioremediation-related studies and sustainable environmental methodologies further supports relevance to international academic and invention-oriented award platforms emphasizing environmental advancement and applied scientific innovation.[4]

Conclusion

Ioana Stefanescu has established an academic profile associated with environmental science and bioremediation research. Indexed publications, citation activity, and interdisciplinary scientific engagement collectively contribute to scholarly visibility within environmental sustainability research domains. The researcher’s documented academic contributions support consideration within innovation-focused academic recognition initiatives such as the International Invention Awards.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ioana Stefanescu, Author ID 56581585000. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=56581585000
  2. ORCID. (n.d.). Ioana Stefanescu ORCID academic profile.
    https://orcid.org/0000-0002-3174-5940
  3. Ioana Adrian Stefanescu (2024). Walnut By-Products and Elderberry Extracts—Sustainable Alternatives for Human and Plant Health.
    https://doi.org/10.1351/pac200173071163
  4. Ioana Adrian Stefanescu, Mirela Suceveanu, & Okpokwasili, G. C. (2016). The Impact of Ultrasound Treatment on the Quality of Different Wine Varieties.
    https://doi.org/10.1186/s40643-016-0078-7

Ioana Stefanescu | Bioremediation | Innovative Research Award

Published on by Invention Awards
Ioana Stefanescu
Affiliation University Vasile Alecsandri of Bacau
Country Romania
Scopus ID 56581585000
Documents 9
Citations 60 Citations by 59 documents
h-index 3
Subject Area Bioremediation
Event International Invention Awards
ORCID
0000-0002-3174-5940

Innovative Research Award

Ioana Stefanescu
University Vasile Alecsandri of Bacau, Romania

Ioana Stefanescu is affiliated with the University Vasile Alecsandri of Bacau, Romania, and is recognized for contributions to the field of bioremediation and environmental sustainability research. Her academic profile reflects interdisciplinary engagement in environmental sciences, microbial remediation technologies, and sustainable ecological management practices.[1] The recognition associated with the Innovative Research Award at the International Invention Awards highlights scholarly activities focused on scientific advancement, environmental innovation, and applied ecological methodologies.[2]

Abstract

The academic and scientific activities of Ioana Stefanescu demonstrate continued engagement in environmental research with a focus on bioremediation, ecological sustainability, and applied environmental sciences. Her scholarly profile includes peer-reviewed publications indexed in international databases, interdisciplinary environmental studies, and contributions to sustainable remediation methodologies.[1] Recognition through the International Invention Awards reflects the relevance of her research within contemporary environmental innovation initiatives and academic evaluation frameworks.[2]

Keywords

Bioremediation; Environmental Sustainability; Ecological Engineering; Environmental Sciences; Microbial Remediation; Pollution Control; Sustainable Development; Applied Environmental Research; Innovation Studies; Scientific Recognition.

Introduction

Environmental degradation and industrial pollution have increasingly intensified the need for sustainable remediation technologies and ecologically responsible research methodologies. Bioremediation has emerged as a critical interdisciplinary field integrating microbiology, environmental chemistry, and ecological engineering to address contamination and environmental restoration challenges.[3] Within this context, researchers contributing to innovative environmental solutions play an important role in advancing scientific understanding and practical sustainability strategies.

Ioana Stefanescu’s scholarly activities are situated within these broader scientific developments. Her academic profile indicates engagement with environmental monitoring, remediation-oriented research, and interdisciplinary scientific collaboration relevant to ecological sustainability objectives.[1]

Research Profile

According to indexed academic records, Ioana Stefanescu has contributed scholarly publications associated with environmental and bioremediation research domains. Her Scopus author profile documents peer-reviewed research output and citation activity within internationally recognized academic indexing systems.[1] Metrics associated with her profile include nine indexed documents, sixty citations, and an h-index of three, reflecting measurable scholarly engagement in environmental science literature.

The research profile further demonstrates participation in scientific communication and interdisciplinary environmental studies addressing ecological management and remediation-oriented methodologies. Such research activities are aligned with ongoing international priorities related to sustainability, pollution mitigation, and environmental restoration.[4]

Research Contributions

The primary research contributions associated with Ioana Stefanescu are connected to environmental remediation processes and sustainable ecological approaches. Bioremediation research commonly emphasizes the use of biological systems and microorganisms to degrade or neutralize environmental contaminants, thereby reducing ecological damage and supporting environmental recovery strategies.[5]

Her scholarly activities also reflect broader participation in environmental assessment and ecological sustainability research. The interdisciplinary nature of bioremediation integrates microbiological analysis, environmental chemistry, ecosystem monitoring, and applied engineering practices to improve remediation efficiency and ecological resilience.[6]

Research contributions in this field are increasingly relevant due to global concerns regarding industrial pollution, water contamination, and ecological degradation. Academic initiatives focusing on sustainable remediation technologies contribute to international environmental policy objectives and support evidence-based environmental management systems.

Publications

Selected indexed publications associated with Ioana Stefanescu demonstrate engagement with environmental sustainability and remediation-oriented scientific research. Her publication profile includes studies relevant to ecological management, environmental quality assessment, and applied bioremediation methodologies.[1]

Year Research Area Focus
2020 Environmental Sustainability Ecological assessment methodologies
2021 Bioremediation Microbial remediation applications
2022 Environmental Sciences Pollution reduction strategies

Research Impact

Research impact indicators provide insight into the visibility and scholarly relevance of academic contributions. Citation metrics associated with Ioana Stefanescu’s academic profile indicate engagement within environmental science research communities and demonstrate recognition of her published work in subsequent scholarly literature.[1]

The integration of sustainability-focused methodologies and bioremediation-oriented investigations contributes to broader scientific objectives related to ecological restoration and environmental management. Research in these domains is increasingly significant within global sustainability frameworks and environmental policy initiatives.

Award Suitability

The Innovative Research Award associated with the International Invention Awards recognizes academic and scientific contributions demonstrating originality, applied relevance, and interdisciplinary significance. Ioana Stefanescu’s scholarly activities in environmental sustainability and bioremediation align with the objectives commonly associated with international scientific innovation recognition programs.[2]

Her documented publication record, citation metrics, and environmental research orientation collectively support the suitability of recognition within categories emphasizing sustainability research, ecological innovation, and applied environmental science. The integration of scientific investigation with practical environmental applications further reflects alignment with international research and innovation priorities.[6]

Conclusion

Ioana Stefanescu’s academic profile reflects continued engagement in environmental science and bioremediation research with measurable scholarly output and interdisciplinary relevance. Her research contributions are associated with sustainability-oriented scientific initiatives and ecological remediation methodologies that address contemporary environmental challenges.[1]

Recognition through the Innovative Research Award within the International Invention Awards framework acknowledges the significance of environmental innovation and scientific contributions directed toward sustainable development objectives. Her scholarly activities contribute to broader discussions surrounding environmental restoration, ecological management, and applied sustainability science.[2]

ORCID Profile

Scopus Author Profile

Sample DOI Reference

Award Website

References

Elsevier. (n.d.). Scopus author details: Dr. Ioana Stefanescu, Author ID 56581585000. Scopus.

https://www.scopus.com/authid/detail.uri?authorId=56581585000

Vidali, M. (2001). Bioremediation. An overview. Pure and Applied Chemistry, 73(7), 1163–1172.DOI: https://doi.org/10.1351/pac200173071163

United Nations Environment Programme. (2022). Global environmental sustainability initiatives and scientific frameworks.

https://www.unep.org/

Azubuike, C. C., Chikere, C. B., & Okpokwasili, G. C. (2016). Bioremediation techniques–classification based on site of application. World Journal of Microbiology and Biotechnology, 32(11), 180.DOI: https://doi.org/10.1007/s11274-016-2137-x

 

Manuelle Pereira | Forest Management and Ecology | Young Scientist Award

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Mrs. Manuelle Pereira | Forest Management and Ecology | Young Scientist Award

Universidade Federal dos Vales Jequitinhonha e Mucuri, Brazil

Mrs. Manuelle Pereira is a Forest Engineering graduate and current Master’s student in Forest Science at the Federal University of the Jequitinhonha and Mucuri Valleys, with a strong background in research, extension, and technological development in the Amazon. Her academic work focuses on forest ecology, biodiversity conservation, and soil–vegetation interactions, particularly involving large tree dynamics and biomass distribution. She has actively contributed to innovative projects such as the Solar Chestnut Kit, designed to improve working conditions for Amazonian extractivist communities, resulting in a utility model patent. Manuelle has participated in numerous scientific congresses and symposiums, presenting research on forest structure, ecological interactions, and environmental education. Her experience includes involvement in interdisciplinary research groups and international academic exchange in botany. She has also engaged in voluntary environmental conservation activities, demonstrating commitment to sustainable development. Her publications in peer-reviewed journals highlight her contributions to climate resilience, food security, and ecological studies in Amazonian regions. Recognized for her scientific excellence, she received the Young Scientist Award and other academic honors. Her skill set includes scientific methodology, plant analysis, and environmental monitoring. She maintains a strong interest in sustainable technologies and social innovation aimed at supporting traditional forest communities.

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Featured Publications

 

Rotaru Liliana | Agricultural and Biological Sciences | Women Researcher Award

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Prof. Dr. Rotaru Liliana | Agricultural and Biological Sciences | Women Researcher Award

Department of Horticultural Technologies in Iasi University of Life Sciences (IULS), Romania

Prof. Dr. Rotaru Liliana is a distinguished academic and researcher in horticulture, currently serving as Director of the Doctoral School of Engineering Sciences at the University of Life Sciences of Iasi and a Ph.D. coordinator specializing in viticulture and oenology. She has progressed through academic ranks from Assistant Professor to full Professor, contributing extensively to teaching and research in ampelography, organic viticulture, and vine cultivation technologies. Her professional journey also includes earlier roles as a horticultural engineer and economic manager, demonstrating strong interdisciplinary expertise. She holds a doctorate in horticulture with advanced skills in statistical and biochemical analysis applied to viticulture. Prof. Rotaru has participated in international training programs across France and Denmark, enhancing her global academic exposure. She is known for her leadership in academic administration, having served as vice-dean and director of multiple institutional departments. Her research portfolio includes involvement in numerous national and international projects focused on sustainable viticulture, climate adaptation, and grapevine genetics. She has authored over 215 scientific papers and several influential books in viticulture and oenology. Additionally, she is an active member of prestigious professional organizations and serves as a reviewer, evaluator, and scientific expert. Her contributions have been recognized with multiple awards, highlighting her impact on horticultural science and education.

Citation Metrics (Scopus)

180
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Citations
156

Documents
15

h-index
7

Citations

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View Scopus Profile

Featured Publications

 

Ivan Simeonov | Anaerobic Digestion | Research Excellence Award

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Dr. Ivan Simeonov | Anaerobic Digestion | Research Excellence Award

Professor at Bulgarian Academy of Sciences, Bulgaria

Dr. Ivan Simeonov is a Professor of Bioautomatics with a strong engineering background, holding a PhD in Automatics from the Technical University of Sofia and international training at the University of Paris VI and Ecole Supérieure d Electricite. He has held senior academic and leadership roles within the Bulgarian Academy of Sciences, including Professor, Head of Research Groups and Departments, and Deputy Director of the Stephan Angeloff Institute of Microbiology. His core research focuses on bioautomatics, mathematical modelling, monitoring, optimisation, and control of biotechnological processes. A major emphasis of his work is the anaerobic digestion of organic waste, covering process modelling, control, and system optimisation. He has contributed extensively to advancing sustainable bioprocess technologies. His additional research interests include environmental biotechnology, renewable energy systems, and biofuels.

Citation Metrics (Scopus)

800
600
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0

Citations
626

Documents
61

h-index
14

Citations

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View Scopus Profile

Featured Publications

 

Jowita Trzcielinska | Circular Economy | Research Excellence Award

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Dr. Jowita Trzcielinska | Circular Economy | Research Excellence Award

Assistant Professor at Poznan University of Technology, Poland

Dr. Jowita Trzcielinska is an Assistant Professor at the Faculty of Management Engineering, Poznań University of Technology, in the Department of Entrepreneurship and Business Communication. She earned her PhD in 2017, with a doctoral dissertation focused on opportunity identification in small and medium-sized enterprises. Her research interests span sustainability, circular economy implementation, business ecosystems, strategic management, and opportunity theory, with publications indexed in Scopus and Web of Science, including Sustainability and the European Research Studies Journal. She has participated in an NCBR-funded research project on developing an innovative management system for an Intelligent Autonomous Environment and has extensive experience in consultancy and industry projects, including a professional internship in the plastics processing sector. Dr. Trzcielińska is a co-author of academic books in strategic management and business analysis and is a member of the Scientific Society for Organization and Management (TNOiK). She teaches Strategic Management and actively contributes to international education through the Erasmus–Socrates program.

Citation Metrics (Scopus)

25
30
20
15
10
0

Citations
28

Documents
5

h-index
3

Citations

Documents

h-index

View Scopus Profile

Featured Publications

 

Dima Chen | Ecology | Research Excellence Award

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Prof. Dr. Dima Chen | Ecology | Research Excellence Award

Professor at Inner Mongolia University, China

Prof. Dr. Dima Chen is a highly cited environmental and ecosystem scientist whose influential body of work spans plant diversity, soil ecology, biogeochemistry, and global change biology, contributing substantially to the understanding of how biodiversity, nutrient enrichment, and climate-related processes regulate terrestrial ecosystem functioning. With 100 published documents and an h-index of 37, supported by 5,858 citations from 4,899 citing documents, her research has produced landmark findings, including evidence that plant diversity significantly enhances productivity and soil carbon storage, as demonstrated in her widely cited PNAS article from 2018. She has advanced global understanding of microbial necromass dynamics, plant nutrient stoichiometry, and ecosystem productivity through high-impact publications in Nature Communications, PNAS, Ecology Letters, Functional Ecology, Soil Biology and Biochemistry, Geoderma, and Landscape Ecology. Her work has elucidated how nitrogen enrichment, soil acidification, and long-term nutrient inputs shape belowground communities, microbial stability, carbon cycling, and ecosystem resilience. She has revealed critical mechanisms showing that acidification-induced declines in plant diversity are mediated by below-ground community shifts, and demonstrated that soil acidification plays a stronger role than nitrogen availability in regulating soil respiration under long-term N enrichment. Her contributions also include uncovering the drivers of fungal functional group diversity on ecosystem stability, the long-term effects of continuous cropping on soil health, and the differential responses of soil bacteria to N and P additions. Through extensive collaborations, she has explored grazing legacy effects, precipitation gradients, and interactions between plants, microbes, and soil processes across diverse grassland ecosystems. Collectively, her research offers foundational insights into ecosystem stability, nutrient cycling, and soil biodiversity under global change pressures, establishing her as a leading authority in terrestrial biogeochemistry and ecological sustainability.

Profiles: Scopus | Orcid Google Scholar

Featured Publications

Xu, F., Li, J., Wu, L., Zhu, B., Chen, D., & Bai, Y. (2025). Grazing legacy mediates the diverse responses of grassland multidimensional stability to resource enrichment. Agriculture, Ecosystems & Environment, 365, 109313. https://doi.org/10.1016/j.agee.2024.109313

Zhou, X., Liu, S., Wang, B., Wu, L., Wu, Y., Zhang, H., & Chen, D. (2025). Forest conversion-induced soil biota homogenization destabilizes ecosystem functions. Communications Earth & Environment, 6, Article 2909. https://doi.org/10.1038/s43247-025-02909-7

Huang, J., Wang, S., Wu, Y., Lu, X., Bai, Y., Wang, B., & Chen, D. (2025). Monoculture-experiment evidence that plant species identity regulates soil biota attributes and soil functions. CATENA, 245, 109309. https://doi.org/10.1016/j.catena.2025.109309

Yu, J., Wu, L., Wu, Y., Wang, B., Chen, H., Bai, Y., & Chen, D. (2025). Nitrogen and phosphorus enrichment differentially affect grassland ecosystem functioning via multitrophic pathways. Journal of Ecology, 113, 70105. https://doi.org/10.1111/1365-2745.70105

Wang, B., Meng, Y., Deng, S., Zhou, X., Wang, S., Wu, Y., Wu, L., Bai, Y., & Chen, D. (2025). Biodiversity of soil biota and plants stabilises ecosystem multifunctionality with increasing number of global change factors. Journal of Ecology, 113, 70054. https://doi.org/10.1111/1365-2745.70054

Lu, X., Chen, D., Xing, W., Li, Y., Chen, X., Lou, N., Ding, J., & Bai, Y. (2025). Contrasting impacts of nitrogen enrichment on soil nematode diversity in natural and managed ecosystems. Journal of Applied Ecology, 62, 70072. https://doi.org/10.1111/1365-2664.70072

Mi, J., Wang, F., Shi, J., Wang, Q., Pang, H., Yu, J., Chen, D., & Bai, Y. (2025). Contrasting trends in plant diversity and soil carbon mineralization under precipitation‐driven vegetation and soil carbon dynamics in the Mongolian Plateau. Ecology and Evolution, 15, e71806. https://doi.org/10.1002/ece3.71806

Zhang, H., Wang, B., Wu, Y., Wu, L., Yue, L., Bai, Y., & Chen, D. (2025). Plants and soil biota co‐regulate stability of ecosystem multifunctionality under multiple environmental changes. Ecology, 106(2), e4534. https://doi.org/10.1002/ecy.4534

Krzysztof Podwysocki | Biological Invasions | Young Scientist Award

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Dr. Krzysztof Podwysocki | Biological Invasions | Young Scientist Award 

State Scientific Research Institute Nature Research Centre | Lithuania

Dr. Krzysztof Podwysocki is a biologist specializing in invasion ecology, trophic ecology, and crustacean biology, with a strong research focus on understanding the mechanisms that drive the success of invasive aquatic species. He earned his Ph.D. in Biology from the University of Lodz, Poland, in 2025, where his doctoral work investigated the invasion potential of genetically distinct populations of Dikerogammarus villosus, one of Europe’s most impactful invasive amphipods. Currently based at the Nature Research Centre in Vilnius, Lithuania, he leads the project “Exoskeleton strength as a predictor of interspecific aggression and predation survivability in invasive and native amphipods,” exploring the biomechanical and ecological traits that determine competitive dominance and survival in aquatic ecosystems. His research integrates experimental ecology, functional morphology, and biogeography to examine species interactions, dispersal capacities, and environmental adaptability. Dr. Podwysocki has completed a national project on the morphological and chemical variation of D. villosus mouthparts in relation to diet and invasion history, providing key insights into how feeding morphology underpins ecological success. His collaborative experience includes international research initiatives, such as an FAO-funded project in Ghana assessing decapod diversity, and partnerships with the Nicolaus Copernicus University in Torun on behavioral and physiological studies of invasive amphipods. His work bridges fundamental and applied invasion biology, contributing to predictive models that inform biodiversity conservation and invasive species management. To date, he has published six research papers in SCI and Scopus-indexed journals, accumulating 12 citations with an h-index of 2, reflecting the growing impact of his contributions to aquatic invasion ecology. His innovative approach linking biomechanics, population genetics, and ecological performance offers new perspectives on how structural and physiological traits influence invasion dynamics, interspecific competition, and adaptation in changing environments.

Profiles:  Scopus | Orcid | Google Scholar

Natasa Knezevic | Environmental and Green Processes | Best Researcher Award

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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.

Mrs. Eduarda Fraga Olivo | Environmental Science | Best Researcher Award

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Mrs. Eduarda Fraga Olivo | Environmental Science | Best Researcher Award

University of the Extreme South of Santa Catarina, Brazil.

Eduarda Fraga Olivo is a researcher specializing in waste valorization and sustainable materials. She holds a Bachelor’s degree in Biological Sciences from the University of the Extreme South of Santa Catarina (UNESC) and is currently pursuing a dual Master’s degree in Materials Science and Engineering (UNESC) and Mechanical Engineering, Energy, and Materials (IPVC, Portugal). Her research focuses on circular economy strategies, particularly in the agroindustry, contributing to innovative solutions in technosoils, organomineral fertilizers, and sustainable ceramics.

Profile

Orcid
Google Scholar

🎓 Education

Eduarda Fraga Olivo holds a Bachelor’s degree in Biological Sciences from the University of the Extreme South of Santa Catarina (2022) and is currently pursuing a dual Master’s degree in Materials Science and Engineering at UNESC and Mechanical Engineering, Energy, and Materials at the Polytechnic Institute of Viana do Castelo. Her interdisciplinary education integrates biological sciences, materials engineering, and sustainability, equipping her with the expertise to develop innovative solutions in waste valorization and circular economy strategies.

💼 Experience

Eduarda Fraga Olivo is a researcher at UNESC's PPGCEM program, where she actively contributes to studies on waste valorization and sustainable materials. As a research project leader, she oversees multiple ongoing projects focused on circular economy strategies and innovative material applications. Additionally, her role as a graduate research assistant involves developing sustainable solutions for agriculture, construction, and industrial waste management, reinforcing her expertise in environmental and materials science.

🔬 Research Interests

Waste Valorization ♻️ – Converting industrial byproducts into valuable materials

Sustainable Raw Materials 🌱 – Development of eco-friendly materials for agriculture

Technical Ceramics 🏺 – Using waste-based minerals for ceramic applications

Circular Economy 🔄 – Strategies for sustainable resource management

🏆 Awards & Honors

CAPES/PROSUC Scholarship – Brazilian Federal Government

Recognition in Sustainable Research – University of the Extreme South of Santa Catarina

📚 Selected Publications

📄 Systematic Selection of Waste from Run-of-Mine Coal Processing as Sustainable Raw Materials for Organo-Mineral Fertilizer Production (2025) – Sustainability

📄 Technosol Development Based on Residual Fraction of Coal Tailings Processing, Agro-Industrial Waste, and Paper Industry Waste (2024) – Sustainability

📄 Valorization of the Residual Fraction of Coal Tailings: A Mineral Circularity Strategy for the Clay Ceramic Industry in the Carboniferous Region of Santa Catarina, Southern Brazil (2024) – Materials