Mersh Minwuyelet | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Mersh Minwuyelet | Agricultural and Biological Sciences | Best Researcher Award

Lecturer at Bege Mider Teachers Education College, Ethiopia

Dr. Mersha Minwuyelet Kassa is an accomplished academic and researcher with a Ph.D. in Biology Education from Bahir Dar University, boasting over 12 years of experience as a lecturer in teacher education. His innovative contributions, such as integrating multimedia and dynamic classroom instruction and his original approach to teaching multiplication tables, highlight his commitment to advancing education. With multiple publications in reputable journals and recognition through awards like the Best Researcher Award and Best Innovation Award, Dr. Mersha has demonstrated his impact on the academic community. His leadership roles, including as an HIV/AIDS focal person and research team member, underscore his dedication to social development. While his profile could benefit from expanded international collaborations and increased focus on high-impact publications, his achievements in research, education, and community engagement make him a highly deserving candidate for the Best Researcher Award.

Professional Profile

Eduction

Dr. Mersha Minwuyelet Kassa has an impressive educational background in biology and education, culminating in a Ph.D. in Biology Education from Bahir Dar University, Ethiopia, with a remarkable cGPA of 3.88, earned in November 2024. His academic journey began with a Diploma in Biology, followed by a Bachelor of Education (B.Ed.) in Biology from Bahir Dar University, where he graduated with a solid cGPA of 3.28. He further advanced his expertise by obtaining a Master of Science (M.Sc.) in Biology from the same university, achieving an outstanding cGPA of 3.82. This rigorous academic progression reflects his dedication to mastering his field. His studies have been pivotal in developing his expertise in biology education, research methodologies, and innovative teaching approaches. This strong academic foundation underpins his contributions as a lecturer and researcher, enabling him to drive significant advancements in education and biology teaching methodologies.

Professional Experence

Dr. Mersha Minwuyelet Kassa has extensive professional experience spanning over two decades, showcasing his dedication to education, research, and community engagement. Since 2010, he has been a lecturer at the College of Teachers Education, contributing to the training and development of future educators. Before this, he spent over a decade as a junior, high school, and preparatory school teacher, honing his teaching skills and impacting student learning. His leadership roles include serving as an HIV/AIDS focal person at Finote Selam College of Teacher Education, where he coordinated projects with NGOs to raise awareness and promote education on the issue. He also contributed as a research team member at the same institution, demonstrating his commitment to advancing educational practices. Additionally, Dr. Mersha has edited articles for academic journals, further emphasizing his expertise and professionalism. His diverse experience reflects his dedication to improving education and addressing societal challenges.

Research Interest

Dr. Mersha Minwuyelet Kassa’s research interests lie at the intersection of biology education, innovative teaching methodologies, and community development. He is particularly focused on integrating multimedia and dynamic classroom instruction to enhance student engagement and academic achievement in biology. His research emphasizes the application of technology to transform traditional teaching practices, as demonstrated in his published work on the effect of multimedia-integrated instruction on student performance. Dr. Mersha also explores innovative approaches to education, such as his groundbreaking “Using Formula New Approach of Multiplication Table,” which highlights his creative problem-solving skills. Additionally, his research extends to addressing societal challenges, such as HIV/AIDS awareness and prevention, reflecting his commitment to community-oriented education. Through his work, Dr. Mersha aims to bridge the gap between educational theory and practice, ensuring that his findings contribute to meaningful improvements in teaching, learning, and broader social outcomes.

Award and Honour

Dr. Mersha Minwuyelet Kassa has received numerous awards and honors in recognition of his outstanding contributions to education, research, and innovation. He has been honored with the Best Researcher Award from Bahir Dar University, celebrating his significant advancements in biology education and his impactful research on multimedia-integrated instruction. Additionally, he received the Best Innovation Award for his original and creative teaching approach, such as his “Using Formula New Approach of Multiplication Table,” which demonstrates his commitment to innovative problem-solving in education. His achievements are further highlighted by his participation in international conferences, where his work has been recognized by global academic communities. Dr. Mersha’s awards underscore his dedication to improving teaching methodologies and addressing societal challenges through education. These accolades reflect his excellence in research, leadership, and his ability to create meaningful advancements in both academic and community-focused initiatives.

Conclusion

Dr. Mersha Minwuyelet Kassa is a strong candidate for the Best Researcher Award due to his remarkable achievements in research, innovative contributions to biology education, and leadership roles in academia and the community. His extensive experience in integrating technology and innovation in education demonstrates his commitment to advancing teaching methodologies and improving learning outcomes. Addressing the areas for improvement, such as expanding international collaborations and focusing on high-impact publications, would further solidify his candidacy and global recognition.

Publication top noted

1. Effect of Using Multimedia and Dynamic Classroom Integrated Instruction on Grade 11 Students’ Biology Academic Achievement

  • Title: Effect of Using Multimedia and Dynamic Classroom Integrated Instruction on Grade 11 Students’ Biology Academic Achievement
  • Authors: Mersha Minwuyelet Kassa, Mulugeta Kibret Azene, Solomon Melesse Mengstie, Melaku Wale Ferede
  • Year: 2024
  • Citation: Kassa, M. M., Azene, M. K., Mengstie, S. M., & Ferede, M. W. (2024). Effect of using multimedia and dynamic classroom integrated instruction on grade 11 students’ biology academic achievement. Heliyon, 10(18). DOI: 10.1016/j.heliyon.2024.e37315

2. Using Formula New Approach of Multiplication Table

  • Title: Using Formula New Approach of Multiplication Table
  • Authors: Mersha Minwuyelet
  • Year: 2018
  • Citation: Mersha Minwuyelet (2018). Using formula new approach of multiplication table. International Journal of Advances in Scientific Research and Engineering, 4(8). DOI: 10.31695/ijasre.2018.32764

Nina Recek | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Nina Recek | Agricultural and Biological Sciences | Best Researcher Award

researcher at Jožef Stefan Institute, Slovenia

Nina Recek is a Slovenian researcher renowned for her contributions to surface engineering, material science, and antimicrobial testing. Born on December 29, 1986, in Slovenia, she has built a distinguished career in both academic and industrial research. Currently, she serves as a Senior Researcher and Project Leader at the Jožef Stefan Institute, where she leads innovative projects and multidisciplinary teams. With international experience in Australia, the United States, and Europe, she has demonstrated her commitment to advancing science globally through impactful collaborations, publications, and patents.

Professional Profile

Education

Nina Recek’s academic foundation is rooted in her deep commitment to science and innovation. She pursued advanced degrees that equipped her with expertise in material science and engineering. Her education spans prestigious institutions, culminating in doctoral research that paved the way for her groundbreaking contributions to surface engineering and biocompatible materials. Her training has provided a robust understanding of multidisciplinary approaches, enabling her to excel in collaborations across biotechnology, chemistry, physics, and microbiology.

Professional Experience

Nina’s professional journey reflects a trajectory of leadership and innovation. At the Jožef Stefan Institute, she leads key projects involving cutting-edge research and industrial applications. Her prior roles include a postdoctoral position at Queensland University of Technology in Australia, where she supervised PhD students and advanced interdisciplinary research. She also served as a research visitor at George Washington University, further enriching her global experience. Her expertise extends to patent applications, laboratory optimization, and innovative methodologies.

Research Interests

Nina’s research interests lie at the intersection of material science, surface engineering, and biocompatibility. She focuses on the synthesis of advanced materials, antimicrobial testing, and the development of biocompatible surfaces. Her work has significant implications for healthcare, industrial applications, and sustainable technologies. She is passionate about translating fundamental research into practical solutions, particularly in developing innovative methods for surface characterization and optimizing laboratory protocols.

Awards and Honors

Nina Recek’s achievements have been recognized through prestigious awards and honors. She was a recipient of the Australian Government Endeavour Fellowship, which highlights her as an outstanding researcher. She has also been invited to speak at international conferences in Vietnam, Japan, and Croatia, reflecting her global impact and leadership in science. Her patents and publications further demonstrate her innovative contributions, solidifying her reputation as a leading researcher in her field.

Conclusion

Nina Recek demonstrates exceptional qualifications as a candidate for the Best Researcher Award. Her extensive experience, innovative contributions, and international collaborations position her as a strong contender. Addressing areas such as broader visibility and leadership in larger-scale grants would further solidify her reputation in the scientific community. Overall, her track record and impact in research make her highly suitable for this honor

Publications Top Noted

  • Nanocarbon-Polymer Composites for Next-Generation Breast Implant Materials
    • Authors: Prasad, K., Rifai, A., Recek, N., Fox, K., Alexander, K.
    • Year: 2024
    • Citations: 0
    • 📜✨🩺
  • Advanced Method for Efficient Functionalization of Polymers by Intermediate Free-Radical Formation with Vacuum-Ultraviolet Radiation and Producing Superhydrophilic Surfaces
    • Authors: Vesel, A., Zaplotnik, R., Mozetič, M., Recek, N.
    • Year: 2023
    • Citations: 0
    • ⚡🌊🔬
  • Germination and Growth of Plasma-Treated Maize Seeds Planted in Fields and Exposed to Realistic Environmental Conditions
    • Authors: Recek, N., Zaplotnik, R., Vesel, A., Mozetič, M., Holc, M.
    • Year: 2023
    • Citations: 2
    • 🌱🌾☀️
  • A Method for the Immobilization of Chitosan onto Urinary Catheters
    • Authors: Vesel, A., Recek, N., Zaplotnik, R., Kuzmič, K., Zemljič, L.F.
    • Year: 2022
    • Citations: 4
    • 🩺⚙️💧
  • Designing UV-Protective and Hydrophilic or Hydrophobic Cotton Fabrics through In-Situ ZnO Synthesis Using Biodegradable Waste Extracts
    • Authors: Verbič, A., Brenčič, K., Dolenec, M., Šala, M., Gorjanc, M.
    • Year: 2022
    • Citations: 14
    • ☀️👗♻️
  • Effect of Oxygen Plasma Treatment on Wheat Emergence and Yield in the Field
    • Authors: Holc, M., Mozetič, M., Zaplotnik, R., Gselman, P., Recek, N.
    • Year: 2022
    • Citations: 2
    • 🌾💨🧪
  • Surface Modifications of Wheat Cultivar Bologna upon Treatment with Non-Equilibrium Gaseous Plasma
    • Authors: Holc, M., Vesel, A., Zaplotnik, R., Gselman, P., Recek, N.
    • Year: 2022
    • Citations: 2
    • 🌽🌀🔬
  • Biocompatibility and Mechanical Stability of Nanopatterned Titanium Films on Stainless Steel Vascular Stents
    • Authors: Yelkarasi, C., Recek, N., Kazmanli, K., Urgen, M., Junkar, I.
    • Year: 2022
    • Citations: 4
    • 🔩🩹🌟
  • Wettability and Water Uptake Improvement in Plasma-Treated Alfalfa Seeds
    • Authors: Holc, M., Gselman, P., Primc, G., Mozetič, M., Recek, N.
    • Year: 2022
    • Citations: 15
    • 🌱💧💡
  • Approaches to Inactivating Aflatoxins—A Review and Challenges
    • Authors: Kutasi, K., Recek, N., Zaplotnik, R., Gselman, P., Primc, G.
    • Year: 2021
    • Citations: 21
    • 🦠🛡️📚

 

Cornelia Kasper | Agricultural and Biological Sciences | Best Researcher Award

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Prof. Dr. Cornelia Kasper | Agricultural and Biological Sciences | Best Researcher Award

Head of Institute at BOKU, Department für Biotechnologie, Institut für Zell- und Gewebekulturtechnologien, Austria

Cornelia Kasper is a renowned professor and researcher in the field of biotechnology, specializing in Tissue Engineering, Stem Cell Technology, and Bioprocess Engineering. She earned her Diploma in Chemistry from the University of Hannover in 1994, followed by a Dr. rer. nat. in 1998 for her dissertation on technical chemistry. Kasper later completed her Habilitation on “New approaches in cell culture techniques” at the University of Hannover in 2007, where she was awarded the Venia Legendi in Technical Chemistry. She has since held numerous leadership roles in both academia and research, including Head of the Cell Culture and Tissue Engineering Group at Leibniz University Hannover (2000-2011) and Full Professor at the University of Natural Resources and Life Sciences (BOKU) in Vienna since 2011. Her academic journey exemplifies a career built on academic rigor, innovative research, and significant contributions to her field.

Professional Profile

Education

Cornelia Kasper’s educational journey began at the University of Hannover, where she earned a Diploma in Chemistry in 1994. Her academic career then progressed through a Ph.D. in 1998, where she focused on Technical Chemistry at the Institute for Technical Chemistry. During her doctoral studies, she developed expertise in areas like bioprocessing and bioreactor design, which laid the foundation for her later work in Tissue Engineering. Kasper further pursued academic excellence by completing her Habilitation at the University of Hannover in 2007, where she specialized in cell culture technologies and received the Venia Legendi in “Technische Chemie.” This qualification allowed her to teach and supervise PhD students, and it was during this period that she began to deepen her expertise in stem cell research. Her educational background is marked by both theoretical knowledge and practical, cutting-edge research.

Professional Experience

Cornelia Kasper’s professional career spans multiple institutions and leadership roles, demonstrating her influence in the fields of biotechnology and regenerative medicine. After completing her dissertation, she was employed as an EU Liaison Officer at the University of Hannover until 2000. From 2000 to 2011, she led the Cell Culture and Tissue Engineering Group at the Institute for Technical Chemistry, Leibniz University Hannover. Her leadership extended to the “Rebirth” Cluster of Excellence, where she headed the Young Researcher Group on “Large Scale Cultivation.” Since 2011, Kasper has been a Full Professor at the University of Natural Resources and Life Sciences (BOKU), where she is also the Head of the Institute for Cell and Tissue Culture Technologies. Additionally, she has served in several important administrative positions, including Chair of the Equal Opportunity Working Party and Co-Chair of the Doc School “Biomaterials and Interfaces,” shaping both academic policy and research agendas.

Research Interests

Cornelia Kasper’s research is primarily focused on Tissue Engineering, Stem Cell Technologies, and Bioprocess Engineering. Her work explores the design and development of bioreactors for large-scale stem cell cultivation, as well as the optimization of cell culture conditions to enhance cell differentiation, expansion, and product development. A key aspect of her research includes the functionalization of biomaterials for use in regenerative therapies, as well as developing new methods for stem cell isolation and characterization. Kasper has made significant contributions to the development of efficient protocols for cell-based assays and therapies, with the ultimate goal of applying these findings in regenerative medicine. Her work aims to bridge the gap between laboratory research and clinical applications, with a focus on scalable, reproducible processes for stem cell manufacturing. Her research also explores the integration of novel technologies to improve cell-based therapy products.

Awards and Honors

Cornelia Kasper has received multiple prestigious awards and honors throughout her career, recognizing her contributions to scientific research and innovation. Her academic achievements began with her doctoral and Habilitation qualifications, which solidified her as a leader in her field. Kasper has been an active member of several influential societies in the field of biotechnology and regenerative medicine, including the Austrian Association of Molecular Life Sciences and Biotechnology (ÖGMBT). Her research has earned her high recognition, including over 180 publications in leading scientific journals and a high h-index of 43 as of 2024. She is also an editor for several respected volumes in the “Advances in Biochemical Engineering and Biotechnology” series (Springer). In addition, Kasper has been honored with roles such as Chair of the Equal Opportunity Working Party at BOKU and Co-Chair of the Doc School “Biomaterials and Interfaces,” further affirming her leadership in both research and academia.

Conclusion

Cornelia Kasper is highly deserving of the Best Researcher Award due to her substantial contributions to Tissue Engineering, Stem Cell Technology, and Bioprocessing. Her leadership, impactful research, and dedication to mentoring the next generation of scientists place her among the leaders in her field. While there are areas for further development, particularly in the realm of translational research and cross-disciplinary collaboration, her impressive body of work and ongoing efforts to improve regenerative medicine make her an outstanding candidate for this award.

Publications Top Noted

  • Development of a novel high-throughput culture system for hypoxic 3D hydrogel cell culture
    • Authors: Egger, D., Baier, L., Moldaschl, J., … Lorber, V., Kasper, C.
    • Year: 2024
    • Journal: Scientific Reports
    • Citations: 1
    • 📄🔬
  • The fluorochrome-to-protein ratio is crucial for the flow cytometric detection of tissue factor on extracellular vesicles
    • Authors: Weiss, R., Mostageer, M., Eichhorn, T., … Kasper, C., Weber, V.
    • Year: 2024
    • Journal: Scientific Reports
    • Citations: 2
    • 📄🧬
  • Characterization of MSC Growth, Differentiation, and EV Production in CNF Hydrogels Under Static and Dynamic Cultures in Hypoxic and Normoxic Conditions
    • Authors: Nikolits, I., Chariyev-Prinz, F., Egger, D., … Mytzka, N., Kasper, C.
    • Year: 2024
    • Journal: Bioengineering
    • Citations: 0
    • 📄🧫
  • Dynamic cultivation of human mesenchymal stem/stromal cells for the production of extracellular vesicles in a 3D bioreactor system
    • Authors: Almeria, C., Weiss, R., Keck, M., … Kasper, C., Egger, D.
    • Year: 2024
    • Journal: Biotechnology Letters
    • Citations: 1
    • 📄⚙️
  • Spheroid trilineage differentiation model of primary mesenchymal stem/stromal cells under hypoxia and serum-free culture conditions
    • Authors: Moldaschl, J., Chariyev-Prinz, F., Toegel, S., … Egger, D., Kasper, C.
    • Year: 2024
    • Journal: Frontiers in Bioengineering and Biotechnology
    • Citations: 2
    • 📄🧬💉
  • Kinetics of NK-92 growth and functionality in pseudo-static cultures
    • Authors: García Aponte, O.F., Kozma, B., Egger, D., Kasper, C., Herwig, C.
    • Year: 2023
    • Journal: Biochemical Engineering Journal
    • Citations: 1
    • 📄🧬⚙️
  • Hydrogels from TEMPO-Oxidized Nanofibrillated Cellulose Support In Vitro Cultivation of Encapsulated Human Mesenchymal Stem Cells
    • Authors: Nikolits, I., Radwan, S., Liebner, F., … Chariyev-Prinz, F., Kasper, C.
    • Year: 2023
    • Journal: ACS Applied Bio Materials
    • Citations: 7
    • 📄🧫🔬
  • Heterogeneity of mesenchymal stem cell-derived extracellular vesicles is highly impacted by the tissue/cell source and culture conditions
    • Authors: Almeria, C., Kreß, S., Weber, V., Egger, D., Kasper, C.
    • Year: 2022
    • Journal: Cell and Bioscience
    • Citations: 41
    • 📄💡🔬
  • Decoding Distinct Ganglioside Patterns of Native and Differentiated Mesenchymal Stem Cells by a Novel Glycolipidomics Profiling Strategy
    • Authors: Hohenwallner, K., Troppmair, N., Panzenboeck, L., … Egger, D., Rampler, E.
    • Year: 2022
    • Journal: JACS Au
    • Citations: 8
    • 📄🧬🔬
  • Editorial: Advanced cell culture technologies to boost cell-based therapies, volume II
    • Authors: Egger, D., Hansmann, J., Kasper, C., Kouroupis, D.
    • Year: 2022
    • Journal: Frontiers in Bioengineering and Biotechnology
    • Citations: 0
    • 📄🧬🩺