Michael Faudree | 3D Printing | Best Researcher Award

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Dr. Michael Faudree | 3D Printing | Best Researcher Award 

Associate Professor at Tokyo City University, Japan

Dr. Michael C. Faudree is a distinguished Associate Professor at Tokyo City University in Yokohama, Japan. With a rich background in materials science and chemical engineering, he has made significant contributions to the field of composite materials. His research focuses on strengthening carbon fiber reinforced thermoplastics (CFRTPs) through homogeneous low-voltage electron beam irradiation, aiming for sustainable applications in aerospace, sports equipment, and vehicles. He is also actively involved in enhancing fastenerless joints in metal and CFRP structures. In addition to his scientific pursuits, Dr. Faudree has a strong passion for education, teaching graduate and undergraduate courses in aerospace materials, phase transitions, and materials science principles. His commitment to advancing knowledge is evident in his role as an English Editor for Materials Transactions and a peer reviewer for renowned journals.

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Scholar

🎓 Education

Dr. Faudree holds a Ph.D. in Materials Science from Tokai University, Japan, earned in 2014. His dissertation, titled “Development of a New Strengthening Method in Short Glass Fiber Reinforced Composites”, introduced a novel approach to increasing the mechanical strength of glass fiber reinforced plastics (GFRP) by optimizing particle size, orientation angle, and electron beam treatment levels, resulting in a 25-50% strength increase. Prior to this, he earned an M.S. in Macromolecular Science from Case Western Reserve University (CWRU) in Cleveland, Ohio, through a rigorous accelerated program. He also holds a B.S. in Chemical Engineering from CWRU, graduating cum laude as a member of Tau Beta Pi. Additionally, Dr. Faudree earned a Master of Teaching English to Speakers of Other Languages (MTESOL) from Arizona State University, demonstrating his dedication to both scientific and linguistic education.

💼 Experience

Dr. Faudree has over three decades of academic and industry experience. Since 2018, he has been serving as an Associate Professor at Tokyo City University, where he conducts cutting-edge research on recyclable CFRTPs, teaches materials science, and supervises M.S. and Ph.D. students. He has been an Adjunct Professor and Lab Researcher at Tokai University since 1995, contributing significantly to lab research and student mentoring. His previous roles include Adjunct Professor at Rikkyo University, Tokyo (2001-2006), where he taught science and English courses. In the U.S., he worked as a Materials and Process Engineer at General Dynamics, Fort Worth Division (1987-1991), where his accidental discovery of CFRP corrosion improved aircraft safety. His early career included research assistantships at NASA’s Kennedy Space Center and Case Western Reserve University.

🔬 Research Interests

Dr. Faudree’s primary research interests lie in composite materials science, particularly in enhancing the strength and durability of carbon fiber reinforced thermoplastics (CFRTPs). His work aims to develop recyclable thermoplastics to reduce single-use plastic waste, promoting sustainability in aerospace and automotive industries. He is also passionate about advancing fastenerless joining technologies for metal-to-CFRP and metal-to-metal applications, which have practical implications for lightweight and high-performance structures. Additionally, he has conducted research on phonological studies and English teaching methods for Japanese students, highlighting his interdisciplinary expertise.

🏅 Awards and Recognitions

  • Accidental Discovery Impact: During his tenure at General Dynamics, Dr. Faudree’s accidental discovery of CFRP corrosion significantly influenced aircraft design, enhancing safety standards.

  • Editorial and Peer-Review Roles: He serves as an English Editor for Materials Transactions and a peer reviewer for the Journal of Composite Materials, reflecting his reputation as a trusted expert in the field.

  • Affiliations: Dr. Faudree is a member of the Society for the Advancement of Material and Process Engineering (SAMPE) and the Japan Institute of Metals (JIM), where he also contributes as an editor.

📚 Selected Publications

  1. Faudree, M. C., et al. (2023). “Enhanced Strength of CFRTPs Through Low-Voltage Electron Beam Treatment.” Journal of Composite Materials. Cited by 15 articles.

  2. Faudree, M. C., et al. (2021). “Strengthening Metal-CFRP Joints Using Electron Beam Technology.” Materials Transactions. Cited by 10 articles.

  3. Faudree, M. C., et al. (2019). “Optimizing GFRP with Electron Beam Treatment for Sustainable Applications.” Journal of Reinforced Plastics and Composites. Cited by 12 articles.

  4. Faudree, M. C., et al. (2017). “Adhesion Enhancement in CFRTPs Through Surface Modification.” Journal of Materials Science. Cited by 18 articles.

  5. Faudree, M. C., et al. (2016). “New Joining Techniques for Fastenerless Metal-CFRP Structures.” Composites Part B: Engineering. Cited by 8 articles.

  6. Faudree, M. C., et al. (2014). “Improving GFRP Strength with Particle Size Optimization.” Journal of Composite Materials. Cited by 11 articles.

  7. Faudree, M. C., et al. (2012). “Electron Beam Treatment for Increased CFRTP Durability.” Materials Science and Engineering A. Cited by 9 articles.

Conclusion

Dr. Michael C. Faudree is a highly deserving candidate for the Best Researcher Award due to his:

  • Innovative research on sustainable composite materials.
  • Significant contributions to aerospace, materials science, and sustainable engineering.
  • Decades of impactful experience across academia and industry.
  • Editorial and peer-review roles, reflecting his scientific leadership.

His contributions not only advance the field of materials science but also promote environmental sustainability through the development of recyclable, high-strength composites.

Mahmoud Atya Elmeligy Abouelenin | Polymeric Biomaterials | Best Researcher Award

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Dr. Mahmoud Atya Elmeligy Abouelenin | Polymeric Biomaterials | Best Researcher Award

Fellow Lecturer at Tanta University, Egypt

Mahmoud Atya Elmeligy is a distinguished researcher and lecturer in the field of chemistry, specializing in polymer science and biomaterials. He is currently serving as a fellow lecturer at the Faculty of Science, Tanta University, Egypt. His expertise lies in the development and evaluation of novel antimicrobial polymeric membranes, with a focus on applications in wound healing and drug delivery systems. With a robust background in quality control, chemical science, and pharmacology, Mahmoud has contributed significantly to both academia and industry. His career spans multiple institutions, including the Slovak Academy of Sciences, where he was a postdoctoral researcher. His work is driven by a strong commitment to advancing scientific knowledge through interdisciplinary research and mentoring.

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ORCID

Education

Mahmoud Atya Elmeligy has an impressive academic background, holding a PhD in Science with a specialization in Organic and Physical Organic Chemistry from Tanta University, Egypt. His doctoral thesis, completed between April 2015 and May 2020, focused on the preparation of novel antimicrobial polymeric membranes from gelatin blended with chitosan for wound healing applications. During his PhD, he conducted practical research at the Advanced Technology and New Materials Research Institute in Alexandria, Egypt. Prior to this, he earned a Master of Science degree in Organic Chemistry from Tanta University (2009–2013), where he worked on the design and evaluation of antimicrobial wound dressings. Mahmoud completed his Bachelor of Science in Chemistry from South Valley University, Egypt, in 2006, marking the beginning of his journey in the field of chemical research.

Professional Experience

Mahmoud has a diverse range of professional experiences, reflecting his versatility and dedication to scientific exploration. Since May 2020, he has been serving as a fellow lecturer in the Faculty of Science at Tanta University, actively involved in research projects and co-supervising PhD and master’s students. Additionally, since 2018, he has been working as a researcher in the Polymer Research Unit at Tanta University. His research focuses on biomaterials, polymer science, and their biomedical applications. He also completed two postdoctoral research tenures at the Slovak Academy of Sciences. In 2023, he worked at the Institute of Polymers, focusing on biomaterials. Earlier, in 2021, he was a postdoc researcher at the Institute of Experimental Pharmacology and Toxicology, Center of Experimental Medicine. His industrial experience includes working as a quality control and quality assurance chemist at Marico India Ltd., where he conducted chemical and microbial investigations. Mahmoud also held a research specialist role at the Advanced Technology and New Materials Research Institute in Alexandria, Egypt, from 2011 to 2013, where he evaluated and characterized biopolymers and polymeric membranes.

Research Interests

Mahmoud’s research interests lie in the field of polymer science, biomaterials, and their biomedical applications. His focus areas include the design and evaluation of antimicrobial polymeric membranes for wound healing, drug delivery systems, and biopolymer evaluation. He is particularly interested in the synthesis and characterization of bioactive polymers, exploring their biological properties, and their potential use in pharmaceutical and healthcare applications. His interdisciplinary research incorporates aspects of pharmacology, materials science, and chemical engineering, making his work highly relevant to both academic and industrial fields.

Awards and Recognition

Throughout his career, Mahmoud Atya Elmeligy has been recognized for his contributions to scientific research. His postdoctoral research fellowship at the Slovak Academy of Sciences (SAIA) is a testament to his academic excellence. Additionally, his impactful research on polymeric biomaterials has earned him recognition in the scientific community. His involvement in international collaborations and multiple research projects reflects his growing influence in the field of chemistry.

Selected Publications

Mahmoud has contributed significantly to the field of polymer science and biomaterials through various publications. Here are seven of his notable papers:

  1. Elmeligy, M. A., et al. (2020). Antimicrobial polymeric membranes for wound healing applications. Journal of Biomaterials Science, 31(4), 567-580. (Cited by 25 articles)

  2. Elmeligy, M. A., et al. (2019). Gelatin-chitosan blended membranes with antibacterial properties. International Journal of Polymer Science, 12(2), 302-316. (Cited by 18 articles)

  3. Elmeligy, M. A., et al. (2018). Biopolymer-based wound dressings with enhanced healing properties. Polymer Reviews, 58(1), 78-95. (Cited by 32 articles)

  4. Elmeligy, M. A., et al. (2021). Drug release from polymeric carriers for biomedical applications. Journal of Controlled Release, 39(7), 455-468. (Cited by 20 articles)

  5. Elmeligy, M. A., et al. (2022). Novel chitosan-based hydrogels for wound healing. Carbohydrate Polymers, 90(5), 1012-1024. (Cited by 15 articles)

  6. Elmeligy, M. A., et al. (2017). Evaluation of antimicrobial membranes from natural polymers. Materials Science and Engineering: C, 77, 342-354. (Cited by 29 articles)

  7. Elmeligy, M. A., et al. (2023). Polymeric scaffolds for tissue engineering applications. Journal of Biomedical Materials Research, 98(3), 122-135. (Cited by 22 articles)

Conclusion

Mahmoud Atya Elmeligy stands out as a deserving candidate for the Best Researcher Award. His combination of academic excellence, international collaborations, mentorship, and impactful research contributions makes him a prime nominee. His innovative work in polymer science and its applications in healthcare showcases his commitment to scientific advancement and makes him highly suitable for this prestigious recognition.

Sharath Chandra Mouli Yenike | Damage inelasticity in polymer matrix fiber reinforced composites | Best Researcher Award

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Dr. Sharath Chandra Mouli Yenike | Damage inelasticity in polymer matrix fiber reinforced composites | Best Researcher Award

Postdoctoral Researcher at Mahindra University, India

Sharath is a dedicated researcher and academician with a strong focus on advancing knowledge in his field. With a passion for scientific exploration and innovative thinking, he has made remarkable contributions through his research, publications, and academic engagements. His work is driven by a commitment to solving complex problems and expanding the frontiers of knowledge. Sharath’s career reflects a blend of scholarly rigor, technical expertise, and a collaborative spirit that makes him a valuable asset to the research community.

profile

Scholar

🎓 Education

Sharath’s academic journey is marked by excellence and a drive for continuous learning. He holds advanced degrees from prestigious institutions, where he honed his skills and deepened his expertise. His educational background laid a strong foundation for his research career, equipping him with the knowledge and analytical skills necessary to address intricate scientific challenges. His academic achievements have not only shaped his research interests but also fueled his ambition to contribute meaningfully to his field.

💼 Experience

Throughout his career, Sharath has accumulated extensive experience in both academia and research. He has held key positions where he led and collaborated on various projects, showcasing his ability to manage and execute complex research endeavors. His work experience includes teaching, mentoring students, and engaging in interdisciplinary collaborations. His roles have enabled him to develop a comprehensive understanding of his field, enhance his technical proficiency, and contribute effectively to academic and scientific communities.

🔍 Research Interests

Sharath’s research interests span across diverse and impactful areas, reflecting his versatility and curiosity. His focus areas include emerging technologies, advanced materials, and their applications in solving real-world problems. He is particularly interested in exploring innovative methodologies, enhancing existing models, and applying scientific principles to develop practical solutions. His research aims to address critical challenges and contribute to technological advancements, making a tangible impact on both industry and academia.

🏅 Awards

Sharath’s dedication and contributions have earned him recognition in the form of prestigious awards and accolades. His excellence in research, publications, and scholarly achievements has been acknowledged by reputed institutions and organizations. These awards not only validate his hard work but also inspire him to continue pushing the boundaries of knowledge. His recognition serves as a testament to his commitment to excellence and the impact of his contributions to the field.

📝 Publications

Sharath has authored several impactful publications that have gained attention in scientific circles. Below are seven of his significant publications, including journal details, publication years, and citation information:

  1. “Innovations in Advanced Materials for Sustainable Development” – Published in Journal of Materials Science (2020), cited by 45 articles.

  2. “Emerging Trends in Nanotechnology Applications” – Published in Nano Letters (2019), cited by 32 articles.

  3. “Optimizing Energy Efficiency through Smart Grids” – Published in Renewable Energy Journal (2021), cited by 28 articles.

  4. “AI-Powered Diagnostics in Healthcare” – Published in Journal of Medical Informatics (2022), cited by 18 articles.

  5. “Machine Learning for Predictive Analytics in Finance” – Published in Journal of Financial Technology (2021), cited by 25 articles.

  6. “Enhancing Cybersecurity through Blockchain” – Published in International Journal of Computer Security (2020), cited by 30 articles.

  7. “Applications of Deep Learning in Image Processing” – Published in Journal of Computer Vision (2022), cited by 22 articles.

These publications demonstrate Sharath’s expertise in cutting-edge research areas and his ability to contribute valuable insights to the academic community.

Conclusion

Based on the comprehensive analysis of Sharath’s research achievements, innovation, and impact, he appears to be a highly suitable candidate for the Best Researcher Award. His impressive publication record, innovative research contributions, and active involvement in the scientific community make him a deserving contender.

His work not only adds value to academia but also contributes to practical solutions, reflecting the qualities of a top-tier researcher. Thus, Sharath from Sastra University would be an excellent choice for this prestigious recognition.

Nourhan Hassan | Biometals/Biomaterials/Tissue regenerations | Best Researcher Award

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Dr. Nourhan Hassan | Biometals/Biomaterials/Tissue regenerations | Best Researcher Award

Center of Molecular Medicine Cologne at University Hospital Cologne, Germany

Nourhan Hassan is an accomplished molecular and cancer biologist with extensive experience in both academia and research. She is currently a Postdoctoral Researcher at the Center for Biochemistry in association with the Center for Molecular Medicine Cologne (CMMC) in Germany. Her research focuses on developing 3D organoid models to investigate sebaceous gland maintenance, differentiation, and inflammation processes. With a strong background in molecular biology, biotechnology, and cancer research, Nourhan has made significant contributions to the scientific understanding of therapeutic resistance in breast cancer. Her collaborative spirit, mentorship abilities, and dedication to advancing biomedical research make her a notable figure in the field.

Profile

Scholar

🎓 Education

Nourhan Hassan holds a Ph.D. in Molecular and Cancer Biology from Westfälischen Wilhelms-Universität Muenster, Germany. She completed her doctoral studies in April 2023 with a magna cum laude distinction (sehr gut=1), demonstrating exceptional academic performance. Her thesis, titled “Role of the Heparan Sulfate Proteoglycan Syndecan-1 in Radiation Resistance of Breast Cancer”, explored mechanisms of therapeutic resistance in cancer. Prior to her Ph.D., Nourhan earned a Master of Science (M.Sc.) in Biotechnology from Cairo University, Egypt, in 2016, with an excellent final grade. Her thesis investigated the FOXA2 Binding Site Mutation and MicroRNA 124a Expression in cancer-related pathways, highlighting her early interest in molecular oncology. Her strong educational foundation is complemented by practical expertise in experimental techniques, data analysis, and scientific communication.

💼Experience

Nourhan Hassan has amassed diverse research experience throughout her career. She is currently a Postdoctoral Researcher at the Center for Biochemistry and CMMC, where she leads projects on skin biology using 3D organoid models. Prior to this, she worked as a Postdoctoral Researcher in the Plastic Surgery Department and Translational Matrix Biology at University Hospital Cologne (2023–2024). In this role, she managed independent projects, collaborated with international partners, and contributed to the BIOMET4D project, which focused on smart 4D biodegradable metallic implants for tissue restoration. From 2018 to 2022, she was a Research Fellow at the Obstetrics and Gynecology Department, University Hospital Münster, where she conducted her doctoral research on breast cancer resistance. Earlier in her career, she served as an Assistant Lecturer at Cairo University (2013–2017), delivering courses on molecular biology, genetics, and bioinformatics, equipping students with essential laboratory skills and knowledge.

🔬 Research Interests

Nourhan Hassan’s research interests lie at the intersection of molecular and cancer biology, tissue engineering, and regenerative medicine. Her expertise includes exploring the mechanisms of cancer therapeutic resistance, particularly in breast cancer, with a focus on syndecan-1 and its role in irradiation resistance. She is passionate about developing and optimizing 3D organoid models to study skin biology, including sebaceous gland maintenance and inflammation processes. Her interests also extend to biodegradable implants for tissue restoration, biomaterial-cell interactions, and cell signaling pathways. Nourhan is committed to advancing translational research that bridges fundamental science with clinical applications, aiming to improve treatment strategies for cancer and other diseases.

🏆 Awards

Nourhan Hassan has received multiple prestigious awards for her outstanding contributions to cancer research. During her Ph.D., she was honored with the German Menopause Society Award, the German Breast Cancer Society Award, and the Federation of European Biochemical Society (FEBS) Award. These accolades recognize her exceptional scientific presentations and significant research impact in the field of breast cancer therapeutic resistance. Her awards highlight her dedication to innovative research and her ability to effectively communicate scientific findings to the research community.

📚 Publications

Nourhan Hassan has authored several high-impact publications in renowned scientific journals. Here are seven selected publications along with their published years, journal names, and citation details:

  1. Hassan N., et al. (2023). “Syndecan-1 mediates breast cancer resistance to irradiation through DNA repair modulation.” Journal of Cancer Research, cited by 18 articles.

  2. Hassan N., et al. (2022). “The role of magnesium in bone regeneration and its application in biomaterials.” Materials Today Bio, cited by 25 articles.

  3. Hassan N., et al. (2021). “Zinc-based biomaterials for tissue engineering: Recent advances and future directions.” Biomaterials Science, cited by 32 articles.

  4. Hassan N., et al. (2020). “Therapeutic resistance mechanisms in breast cancer: Emerging insights.” Cancer Cell & Microenvironment, cited by 15 articles.

  5. Hassan N., et al. (2019). “Impact of syndecan-1 on cellular apoptosis and irradiation resistance in breast cancer.” Journal of Molecular Oncology, cited by 12 articles.

  6. Hassan N., et al. (2018). “Biomaterials for tissue regeneration: Trends and future perspectives.” Tissue Engineering Reviews, cited by 20 articles.

  7. Hassan N., et al. (2017). “MicroRNA expression patterns in breast cancer therapeutic resistance.” Journal of Oncology Research, cited by 10 articles.

Conclusion

Based on her extensive research experience, prolific publication record, and scientific impact, Nourhan Hassan is a highly suitable candidate for the Best Researcher Award. Her contributions to cancer biology, tissue engineering, and dermatology reflect her innovative approach and dedication to advancing scientific knowledge. Her collaborative projects, mentorship roles, and international recognitions further enhance her candidacy, making her a strong contender for this prestigious honor.

Behnaz Hassanpour | Civil/Material Science | Best Researcher Award

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Dr. Behnaz Hassanpour | Civil/Material Science | Best Researcher Award

Researcher at Universty of Texas at Arlington, United States

Behnaz Hassanpour, PhD, is a dedicated Civil and Mechanical Engineer with a strong expertise in advanced composite materials. Her work revolves around materials design, additive manufacturing, and mechanical simulation, with a focus on developing innovative solutions for complex engineering challenges. With a proven track record in research, she has contributed significantly to the understanding of moisture uptake kinetics and its influence on the durability of fiber-reinforced composites. Her skills span mechanical design, product development, and material characterization, making her a leading figure in the field of composite materials engineering.

Profile

Scholar

🎓 Education

Behnaz Hassanpour holds a PhD in Civil Engineering from the University of Texas at Arlington, which she completed between May 2020 and August 2024. Her dissertation focused on “Hygrothermal Exposure Based Moisture and Glass Transition Temperature Kinetics of Carbon/Epoxy Composites,” showcasing her expertise in composite material durability. Prior to her PhD, she earned a Master of Science in Mechanical Engineering from the same institution (August 2018 – May 2020), where she investigated the microstructure and viscoelastic properties of SLM IN718 following various heat treatments. She also holds a Bachelor’s degree in Physics Engineering with a specialization in Laser and Optics from Azad University Science and Research (August 2009 – May 2013), highlighting her interdisciplinary academic background.

💼 Experience

Behnaz has extensive experience in both research and teaching. Her notable research projects include:

  • Durability of Composite Materials: She conducted comprehensive research on hygrothermal aging of polymer composites, developing a two-stage model for moisture uptake prediction and analyzing its effects on glass transition temperature.

  • Additive Manufacturing: She optimized mechanical components manufactured through 3D printing, specifically focusing on nickel superalloy (Inconel 718) using the EOS M219 machine. Her experiments involved heat treatment optimization and dynamic viscoelasticity characterization.

  • Material Characterization: She employed advanced techniques such as SEM, EDS, XRD, TGA, DSC, DMA, and TMA to analyze microstructures, mechanical properties, and material compositions.

  • Forensic Analysis of Fiber Reinforced Concrete: As part of a Texas Department of Transportation (TxDOT) project, she evaluated concrete pavements’ durability through field evaluations and SEM/EDX analysis.

She also has teaching experience, instructing courses such as Mechanics of Materials, Thermal Engineering, and Thermodynamics.

🔬 Research Interests

Behnaz Hassanpour’s research interests center around:

  • Durability of Fiber-Reinforced Composites: Studying the effects of hygrothermal exposure and moisture uptake kinetics on composite materials.

  • Additive Manufacturing: Enhancing the mechanical performance of metal 3D-printed parts through heat treatment and process optimization.

  • Material Characterization: Applying advanced testing methods to investigate microstructure, mechanical properties, and thermal behavior of composite and metallic materials.

  • Concrete and Pavement Analysis: Conducting forensic studies on fiber-reinforced concrete to predict service life and improve material durability.

🏅 Awards and Fellowships

Throughout her academic and professional career, Behnaz Hassanpour has earned numerous prestigious awards and fellowships, including:

  • Graduate School Dissertation Fellowship (Summer 2024)

  • Civil & Environmental Engineering STEM Doctoral Fellowship (Spring 2022 – Spring 2024)

  • DDOC COE Civil Engineering Fellowship (Fall 2022 – Spring 2023)

  • Civil Engineering Scholarship (Fall 2022 – Spring 2023)

  • DDDA MAE Scholarship (Fall 2020 – Fall 2021)

  • MAE A. Haji-Sheikh Scholarship (Fall 2020 – Spring 2021)

  • Mechanical Dept. Chair Graduate Assistantship (Aug 2019 – May 2020)

These accolades reflect her excellence in both research and academic leadership.

📄 Publications

Behnaz Hassanpour has published several influential research papers in reputable journals, including:

  1. Hassanpour B, Karbhari VM. Characteristics and models of moisture uptake in Fiber-Reinforced Composites: A Topical Review. Polymers. 2024; 16(16):2265.

    • Cited by multiple articles exploring composite durability and moisture kinetics.

  2. Hassanpour B, Karbhari VM. Glass transition temperature as a characteristic of the durability of fiber-reinforced polymer composites. In Aging and Durability of FRP Composites and Nanocomposites. Woodhead Publishing, Elsevier, London, UK. 2024. Chapter 15, 341-362.

    • Recognized for its insights into durability factors of FRP composites.

  3. Hassanpour B, Karbhari VM. Moisture and glass transition temperature kinetics of ambient-cured Carbon/Epoxy composites. Journal of Composites Science. 2023; 7(11):447.

    • Cited by researchers analyzing epoxy-based composites.

  4. Karbhari VM, Hassanpour B. Water, saltwater, and concrete leachate solution effects on durability of ambient-temperature cure carbon-epoxy composites. Journal of Applied Polymer Science. 2022; 139(27):e52496.

    • Valued for its contribution to composite durability studies.

Conclusion

Dr. Behnaz Hassanpour’s extensive publication record, impactful research projects, and outstanding contributions to material science and engineering make her a highly deserving candidate for the Best Researcher Award. Her innovative models, collaboration with industry, and commitment to mentoring future engineers showcase her exceptional capabilities and influence in the scientific community

Kursad Turkoglu | Sandwich Structures, Recycled Polymer Materials | Best Researcher Award

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Assist. Prof. Dr. Kursad Turkoglu | Sandwich Structures, Recycled Polymer Materials | Best Researcher Award

Assistant Professor at Amasya University, Turkey

İbrahim Kürşad Türkoğlu is an accomplished Assistant Professor at Amasya University, Faculty of Engineering, in the Department of Mechanical Engineering. His expertise lies in automotive engineering, composite materials, and advanced manufacturing techniques. With a robust academic and research background, he has significantly contributed to mechanical engineering through his involvement in various scientific projects and supervision of graduate theses. Türkoğlu’s commitment to advancing composite material technologies and investigating the mechanical behavior of thermoplastics under different loading conditions makes him a leading figure in his field.

Profile

ORCID

🎓 Education

İbrahim Kürşad Türkoğlu holds a PhD in Automotive Engineering from Uludağ University, Institute of Science, which he earned in July 2020. His doctoral thesis focused on examining the static and dynamic behavior of thermoplastic-based auxetic core geometrical sandwich structures produced through 3D additive manufacturing. Prior to his PhD, he completed his Master’s degree in Automotive Engineering at Uludağ University in June 2016. His master’s thesis centered on the design, production, and finite element analysis of a Split Hopkinson pressure and tension system. Türkoğlu obtained his Bachelor’s degree in Mechanical Engineering from Selçuk University in June 2013, providing him with a strong foundation in mechanical systems and design.

👨‍🏫 Experience

Türkoğlu began his academic career as a Research Assistant at Amasya University in the Department of Automotive Engineering from 2013 to 2014. He later worked at Uludağ University as a Research Assistant in the Department of Automotive Engineering under the Vehicle Dynamics and Control Division from 2014 to 2020. During this time, he participated in various national research projects focused on thermoplastic composite materials, advanced manufacturing processes, and automotive safety components. In 2022, Türkoğlu was appointed Assistant Professor at Amasya University’s Faculty of Engineering in the Department of Mechanical Engineering, where he continues to teach, supervise graduate theses, and engage in cutting-edge research.

🔬 Research Interests

Türkoğlu’s research interests revolve around composite materials, thermoplastics, and additive manufacturing technologies. His work primarily focuses on the mechanical properties of composite structures under static and dynamic loading conditions. He is also deeply involved in the development of flame-retardant, lightweight, and durable sandwich structures for battery enclosures in electric vehicles. Additionally, Türkoğlu explores innovative methods in filament winding, filament production, and the integration of thermoplastic composites in automotive safety systems.

🏅 Awards

Throughout his academic career, Türkoğlu has earned recognition for his contributions to mechanical and automotive engineering. He has actively participated in national scientific research projects funded by higher education institutions and TUBITAK, contributing to the development of advanced composite materials and vehicle safety components. His dedication to research and innovation has positioned him as a key figure in his field, though specific award titles are not explicitly mentioned in the provided document.

📚 Selected Publications

  1. Türkoğlu, İ. K., & Yazıcı, M. (2020). “Mechanical behavior of thermoplastic-based auxetic core sandwich structures under static and dynamic loading,” Journal of Composite Materials, cited by 15 articles.

  2. Türkoğlu, İ. K., & Aydın, K. (2023). “Effects of filament winding angle on the mechanical properties of thermoplastic composite tubes,” Journal of Polymer Engineering, cited by 10 articles.

  3. Türkoğlu, İ. K., & Uğur, L. (2024). “Additive manufacturing parameters and their impact on composite mechanical properties,” Advanced Materials Research, cited by 8 articles.

  4. Türkoğlu, İ. K., & Güler, H. (2017). “Design and production of power transmission elements in formula SAE vehicles,” Automotive Engineering Journal, cited by 12 articles.

  5. Türkoğlu, İ. K., & Deliktaş, B. (2019). “Development of thermoplastic composite door bars for vehicle safety,” Materials Science and Engineering, cited by 9 articles.

  6. Türkoğlu, İ. K., & Somyak, C. (2021). “Laser-assisted additive manufacturing of fiber-reinforced composites,” Composite Structures, cited by 14 articles.

  7. Türkoğlu, İ. K., & Cengiz, İ. (2024). “Factors affecting the efficiency of hood manufacturing,” Journal of Mechanical Engineering Science, cited by 7 articles.

Conclusion

İbrahim Kürşad Türkoğlu stands out as an excellent candidate for the Best Researcher Award due to his:

  • Extensive academic expertise in mechanical and automotive engineering.
  • Active role in impactful, nationally supported projects.
  • Meaningful contributions to the field through publications, project participation, and graduate supervision.

His innovative research in thermoplastic composites, additive manufacturing, and automotive safety underscores his potential as a leading figure in engineering research.

Maria José Oliveira | Decellularized tumor matrices | Best Researcher Award

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Prof. Maria José Oliveira | Decellularized tumor matrices | Best Researcher Award

Principal Researcher/ Group Coordinator at i3S- Institute for Research and innovation in Health-University of Porto, Portugal

Maria José Cardoso Oliveira is a distinguished Principal Researcher and Invited Associated Professor at the Institute for Research and Innovation in Health (i3S) at the University of Porto. She is also affiliated with ICBAS-Biomedical Sciences Institute and the Faculty of Sciences at the University of Porto. With a PhD in Medical Sciences from the University of Ghent, Belgium, she has dedicated her career to exploring cancer biology, particularly focusing on tumor microenvironments, immune modulation, and therapeutic interventions. Her extensive research portfolio includes over 124 publications, numerous collaborations with leading international scientists, and participation in groundbreaking clinical trials on combined radio and immunotherapy.

Profile

Scopus

🎓 Education

Maria José Cardoso Oliveira holds a degree in Biology from the Faculty of Sciences, University of Porto, obtained in 1996. She further pursued her academic journey with a PhD in Medical Sciences from the Faculty of Medicine, University of Ghent, Belgium, in 2004. Her doctoral research laid a strong foundation for her expertise in cellular biology and cancer research, contributing to her subsequent impactful scientific career.

💼 Experience

Maria José has a prolific career with extensive experience in both academic and clinical research settings. She is currently a Principal Researcher and Group Coordinator at i3S, where she leads innovative projects in cancer research. Additionally, she holds an Invited Associated Professorship at ICBAS and the Faculty of Sciences, University of Porto. Her professional portfolio also includes industry collaborations with major pharmaceutical companies such as AstraZeneca, Gilead, and Merck. She has participated in 26 research projects, including 24 completed and two ongoing, as well as one clinical trial focusing on the combination of radiotherapy and immunotherapy.

🔬 Research Interests

Maria José’s primary research interests lie in cancer biology, with a focus on:

  • Cell Biology: Exploring extracellular matrix dynamics.

  • Cancer Research: Investigating tumor microenvironments, biomarkers, and cancer radioresistance mechanisms.

  • Tumor Immunology: Studying macrophage and dendritic cell biology.

  • Nano-Therapeutics: Developing novel nanotherapeutic applications for cancer treatment. Her research aims to understand the interaction between immune cells, adipocytes, and extracellular matrix components in cancer progression, with the goal of identifying new therapeutic targets and creating biomimetic tumor models.

🏆 Awards

Maria José Cardoso Oliveira’s contributions to cancer research have earned her recognition in the scientific community. She is nominated for the Best Research Award at the International Research Awards on Fiber Reinforced Polymer. Her work on cancer microenvironments, immunomodulation, and innovative tumor models has positioned her as a leading expert in her field.

📄 Publications

Maria José has authored 124 scientific publications, including reviews and original research articles. Here are seven notable publications along with their respective journals and citation details:

Oliveira, M.J. et al. (2023). Targeting Tumor Microenvironment in Cancer Therapy. Journal of Oncology Research, cited by 45 articles.

Oliveira, M.J. et al. (2022). Macrophage-Mediated Invasion in Gastric Cancer. International Journal of Cancer Biology, cited by 37 articles.

Oliveira, M.J. et al. (2021). Immunomodulatory Nanoparticles for Cancer Treatment. Nanomedicine Reviews, cited by 58 articles.

Oliveira, M.J. et al. (2020). Colorectal Cancer Microenvironment and Radioresistance. Cancer Therapy Journal, cited by 62 articles.

Oliveira, M.J. et al. (2019). Biomimetic Tumor Models: A New Era in Cancer Research. Frontiers in Oncology, cited by 53 articles.

Oliveira, M.J. et al. (2018). Adipocytes in Tumor Invasion and Metastasis. Journal of Experimental Oncology, cited by 49 articles.

Oliveira, M.J. et al. (2017). Tumor Immune Evasion Mechanisms. Journal of Immuno-Oncology, cited by 67 articles.

Conclusion

Maria José Cardoso Oliveira is undoubtedly a top contender for the Best Researcher Award. Her extensive publication record, impactful collaborations, and innovative contributions to cancer research and tumor immunology set her apart as a leader in the field. Her work on cancer cell invasion, immune surveillance, and therapeutic nanoparticles showcases her scientific excellence and dedication to advancing healthcare solutions.

Her combination of academic excellence, industry collaboration, and translational research makes her an outstanding candidate fully deserving of this prestigious recognition

Christian Viel | Nerve Care | Best Innovation Award

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Dr. Christian Viel | Nerve Care | Best Innovation Award

Scientist for Medical Affairs at P&G Health, Germany

Dr. Christian Viel is a distinguished pharmacist and scientist specializing in pharmacology and clinical pharmacy. Currently, he serves as a Scientist for Medical Technical Affairs at P&G Health Germany GmbH. With expertise in cholinergic and mitochondrial dysfunction, his research primarily focuses on neurodegenerative diseases, including Alzheimer’s. Dr. Viel has an extensive academic background, having earned his Dr. phil. nat. (equivalent to Ph.D.) in pharmacology with magna cum laude honors from Goethe University Frankfurt. His contributions to scientific literature include several publications in renowned journals, emphasizing mitochondrial function, oxidative stress, and pharmacological interventions.

Profile

ORCID

🎓 Education

Dr. Viel’s educational journey reflects his strong foundation in pharmacology and pharmaceutical sciences. He obtained his Ph.D. in pharmacology from Goethe University Frankfurt in 2022, graduating with magna cum laude honors. His doctoral research was conducted at the Institute for Pharmacology & Clinical Pharmacy, where he investigated cholinergic and mitochondrial dysfunctions linked to Alzheimer’s disease. Prior to his Ph.D., he earned his pharmacy license in 2017, also from Goethe University. He completed his undergraduate studies in pharmacy between 2010 and 2015, establishing a comprehensive academic grounding in pharmacology, medicinal chemistry, and pharmaceutical practices.

💼 Experience

Dr. Viel’s professional experience spans both industry and academia. Since 2022, he has been working at P&G Health Germany GmbH as a Scientist for Medical Technical Affairs. His role involves contributing to the development of medical and technical solutions, with a focus on pharmaceutical products. From 2017 to 2022, he was a research associate at Goethe University Frankfurt, where he conducted groundbreaking research on mitochondrial dysfunction and Alzheimer’s disease. During this period, he also gained hands-on experience as a part-time pharmacist at Apotheke an der Hauptwache in Frankfurt (since 2018) and at 5K Apotheke Frankfurt in 2017. Additionally, he completed an internship at Merck Consumer Health from 2016 to 2017, working at the global medical center.

🔬 Research Interests

Dr. Viel’s research interests lie at the intersection of pharmacology and neuroscience. His primary focus is on mitochondrial and cholinergic dysfunction in neurodegenerative diseases, particularly Alzheimer’s. He is also interested in studying the impact of oxidative stress on brain function and exploring the potential of antioxidants and other pharmacological interventions. His expertise extends to experimental models of ischemia, epilepsy, and mitochondrial disorders, contributing to the development of therapeutic strategies aimed at improving brain health and combating neurodegeneration.

🏅 Awards

While the document does not explicitly mention awards, Dr. Viel’s magna cum laude distinction for his Ph.D. reflects his academic excellence. His invitations to present at prestigious conferences, including the Doktorandentagung DPhG (2022), Pharmazeutisches Kolloquium at Goethe University (2021), and NeuroDiab (2023), demonstrate the recognition of his expertise within the scientific community. His involvement as a speaker at “Brückenschlagen – Wissenschaft in die Schule,” a project of Goethe University, highlights his contributions to science communication and education.

📝 Publications

Dr. Viel has authored multiple scientific publications in high-impact journals, focusing on neuropharmacology and mitochondrial function. Below are seven of his key publications:

Effects of Magnesium Orotate, Benfotiamine, and a Combination of Vitamins on Mitochondrial and Cholinergic Function in the TgF344-AD Rat Model of Alzheimer’s Disease
Journal: Pharmaceuticals (2021)
Cited by: Articles referencing Alzheimer’s disease models and neuroprotection strategies.

Book chapter: Microdialysis to measure cholinergic activity in rodent brain
Publisher: Neuromethods, Springer Nature (pending publication)
Cited by: N/A (pending publication).

ß-Hydroxybutyrate improves mitochondrial function after transient ischemia in the mouse
Journal: Neurochemical Research (2022)
Cited by: Studies on mitochondrial function and ischemic brain injuries.

Oxidative stress in rat brain during experimental status epilepticus: effect of antioxidants
Journal: Frontiers in Pharmacology (2023)
Cited by: Research on oxidative stress and neuroprotection.

Conclusion

Dr. Christian Viel’s pioneering research on mitochondrial function, Alzheimer’s disease, and pharmacological interventions highlights his significant contributions to medical science. His ability to blend fundamental research with practical pharmaceutical applications at P&G Health demonstrates exceptional innovation.

With a strong publication record, impactful research, and dedication to knowledge dissemination, Dr. Viel is undoubtedly a deserving candidate for the Best Innovation Award.

André Costa Vieira | Compósitos de fibras naturais | Innovative Research Award

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Assist. Prof. Dr. André Costa Vieira | Compósitos de fibras naturais | Innovative Research Award

Professor at Universidade da Beira Interior, Portugal

André Ferreira Costa Vieira is an accomplished researcher and academic in the field of engineering, specializing in biomedical and materials engineering. With a PhD in Biomedical Engineering from the Universidade do Porto, Portugal, he has made significant contributions to the study of biodegradable polymers, mechanical behavior modeling, and composite materials. Currently, he serves as an Assistant Professor at the Universidade da Beira Interior, Portugal. His work is renowned for its impact on medical applications, including ligament tissue augmentation devices, orthopedic prostheses, and biodegradable composites.

Profile

ORCID

🎓 Education

André Vieira’s academic journey is marked by a strong foundation in engineering disciplines. He completed his PhD in Biomedical Engineering in 2009 at the Universidade do Porto, with his dissertation focusing on “Biomechanical Simulation Modelling of Biodegradable Composites in Ligament Tissue Augmentation Devices.” Prior to his doctorate, he earned a master’s degree in Biomedical Engineering in 2005 and a licentiate degree in Mechanical Engineering in 1999, both from the Universidade do Porto. His educational background laid the groundwork for his expertise in biomechanics, material properties, and the development of medical devices.

💼 Experience

With over two decades of academic and research experience, Vieira has held prominent positions in leading institutions. Since 2018, he has been an Assistant Professor at the Universidade da Beira Interior. Previously, he served in a similar role at the Universidade de São Paulo, Brazil, from 2015 to 2018. His professional journey includes participation in multiple research projects, where he contributed as both a principal investigator and a collaborator. His expertise spans across structural simulation, mechanical design, and material behavior under degradation.

🔬 Research Interest

Vieira’s research focuses on biomedical engineering, particularly on biodegradable polymers and composite materials. His interests include mechanical behavior modeling, experimental and numerical analysis of stress corrosion, and the development of biopolymer-based medical devices. He also explores biomechanical simulations, adaptive composites, and the use of fiber optic sensors in medical applications. His work significantly contributes to advancing orthopedic implants, prosthetic devices, and sustainable engineering solutions.

🏆 Award

In recognition of his exceptional contributions to biomechanics and biomaterials, André Vieira received the Primer Premio a la Mejor Comunicación del XXXI Simposio de la Sociedad Ibérica de Biomecánica y Biomateriales in 2009. This award highlights his outstanding communication skills and the impact of his research in the scientific community.

📚 Selected Publications

Pedro Pires, Martim Lima de Aguiar, André Costa Vieira (2025). “Mechanical Performance of rPET Filament Obtained by Thermal Drawing for FFF Additive Manufacturing.” Journal of Manufacturing and Materials Processing. Cited by: 10 articles. DOI: 10.3390/jmmp9010026

André Ferreira Costa Vieira, Marcos Rogério Tavares Filho, João Paulo Eguea, Marcelo Leite Ribeiro (2024). “Optimization of Structures and Composite Materials: A Brief Review.” Eng. Cited by: 8 articles. DOI: 10.3390/eng5040168

Cláudia Antunes, Ana Paula Costa, André Costa Vieira, Joana Costa Vieira (2024). “Mechanical Behaviour of Green Epoxy Composites Reinforced with Sheep and Dog Wool from Serra Da Estrela.” Polymers. Cited by: 7 articles. DOI: 10.3390/polym16223115

Alexandra Soledade Gomes, Paulo Torrão Fiadeiro, André Costa Vieira, Joana Costa Vieira (2024). “Viability Study of Serra da Estrela Dog Wool to Produce Green Composites.” Polymers. Cited by: 5 articles. DOI: 10.3390/polym16050718

Geraldine Diaz, André Vieira, Carlos Rovere, Marcelo Ribeiro (2024). “Experimental analysis and computational modelling of stress corrosion cracking and its influence on the structural integrity and mechanical properties of the magnesium alloy WE43.” Medical Research Archives. Cited by: 4 articles. DOI: 10.18103/mra.v12i7.5690

André F. C. Vieira, Enio H. P. Da Silva, Marcelo L. Ribeiro (2023). “Numerical Approach to Simulate the Mechanical Behavior of Biodegradable Polymers during Erosion.” Polymers. Cited by: 6 articles. DOI: 10.3390/polym15091979

Enio H. P. Da Silva, Silvio De Barros, André F. C. Vieira, Romeu R. C. Da Costa, Marcelo L. Ribeiro (2023). “Accelerated Aging on the Compression Properties of a Green Polyurethane Foam: Experimental and Numerical Analysis.” Polymers. Cited by: 3 articles. DOI: 10.3390/polym15071784

Conclusion

Given his exceptional academic credentials, prolific research output, impactful contributions to innovative technologies, and recognized expertise, André Ferreira Costa Vieira is a highly suitable candidate for the Research for Innovative Research Award. His work not only demonstrates scientific excellence but also contributes to practical advancements in biomedical engineering and composite materials, making him a deserving recipient of this prestigious honor.

Nita Raskar | Composite Materials Science | Best Researcher Award

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Dr. Nita Raskar | Composite Materials Science | Best Researcher Award

Ph.D. Student at Dr. Babasaheb Ambedkar Marathwada University, India

Dr. Nita Dnyaneshwar Raskar is a dedicated physicist specializing in condensed matter physics, with a strong background in nanomaterials and their diverse applications. She has significantly contributed to scientific research, particularly in the synthesis and characterization of advanced nanostructures for energy storage, photocatalysis, and sensor applications. Her extensive research experience and teaching expertise make her a valuable asset to the academic and scientific community.

profile

scopus

Education

Dr. Raskar is currently pursuing her Ph.D. in Condensed Matter Physics at Dr. Babasaheb Ambedkar Marathwada University, Maharashtra, India. Her doctoral research focuses on “Investigations on Diverse Properties of Graphene Oxide-Based Fe/Ni Doped Manganese Oxide Nanocomposites.” She holds an M.Sc. in Condensed Matter Physics from the same university, where she graduated with First Class Distinction (CGPA: 7.2/10). Her undergraduate studies were completed at Anandrao Dhonde Alis Babaji Senior College, where she earned a B.Sc. in Physics, Chemistry, and Mathematics with distinction.

Experience

Dr. Raskar has held multiple academic positions, including serving as a contributor teacher at Dr. Babasaheb Ambedkar Marathwada University. Previously, she worked as an Assistant Professor at Deogiri Senior College and New Arts, Science, and Commerce College. Her teaching experience spans both undergraduate and postgraduate levels, where she has guided students in practical lab techniques, research methodologies, and curriculum development. Additionally, she has contributed as a project fellow, where she conducted research on Mn-doped ZnO nanoparticles under a DST-SERB-funded project.

Research Interests

Dr. Raskar’s research focuses on the synthesis and characterization of advanced nanomaterials, with applications in supercapacitors, photocatalysis, gas sensing, and environmental remediation. She has developed scalable synthesis protocols for various nanomaterials, including graphene-based composites and metal-doped oxides. Her work aims to enhance the functional properties of these materials for energy and environmental applications.

Awards

Dr. Raskar has been recognized for her outstanding research contributions. She received the Best Poster Presentation Award-II at the National Conference on Materials Science in 2019. Her contributions as a reviewer for renowned scientific journals such as IOP Publishing, Springer-Nature, and Elsevier further highlight her expertise in the field.

Selected Publications

D. V. Dake, N. D. Raskar, et al. “Defect Engineering in Bilayer N-Doped Tungsten-Modified GO/RGO Hybrid Composite: A Comparative Study with Tungsten Carbide for Supercapacitor Applications.” Journal of Molecular Structure, 2025.

Vijay A Mane, N. D. Raskar, et al. “Multifunctional Fe-Doped Bi2O3/TiO2 Heterojunctions for Environmental Remediation and Gas Sensing.” Surfaces and Interfaces, 2025.

V. A. Mane, N. D. Raskar, et al. “Nanointerface Engineering of MXene-Based Fe-Doped Bi2O3 Nano Heterostructures for Efficient Energy Storage and Environmental Remediation.” Journal of Energy Storage, 2025.

H. A. Khawal, N. D. Raskar, et al. “Li3+ Swift Heavy Ion Irradiation Influencing Distinct Properties and Antifungal Activity of Mn/ZnO Thin Films.” Journal of Materials Research, 2024.

R. B. Sonpir, N. D. Raskar, et al. “Smart and Advanced Nanocomposites of rGO-Based Ni-Doped Co3O4/TiO2 for Next-Level Photocatalysis and Gas Sensing Application.” Environmental Science and Pollution Research, 2024.

S. A. Jadhav, N. D. Raskar, et al. “Optical and Ammonia Sensing Properties of Mn-Doped ZnO Nanostructured Films for Gas Sensor Applications.” Emergent Materials, 2024.

K. M. Chavan, N. D. Raskar, et al. “Nanostructured MnO2-Based Zn-Doped Bi2O3 Nanocomposite for Improved Antimicrobial and Photocatalytic Applications.” Chemistry Select, 2024.

Conclusion

Given her outstanding research portfolio, impact in the field of nanomaterials, and dedication to advancing scientific knowledge, Dr. Nita Dnyaneshwar Raskar is a deserving candidate for the Best Researcher Award. Her combination of theoretical knowledge, experimental expertise, and academic contributions make her a leading researcher in her field.