yuanpeng li | Raman spectrum analysis technology | Best Researcher Award

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Assoc. Prof. Dr. yuanpeng li | Raman spectrum analysis technology | Best Researcher Award

Associate professor at Guangxi Normal University, China

 

Dr. Yuanpeng Li is a distinguished Associate Professor at the School of Physical Science and Technology, Guangxi Normal University, China. Renowned for his cross-disciplinary expertise, he has significantly contributed to biomedical engineering, optical spectroscopy, and machine learning. His innovative research focuses on developing non-invasive technologies for medical diagnostics and food quality analysis. Over the past decade, Dr. Li has established a solid academic footprint through national and provincial research grants, mentoring students, and publishing impactful articles in high-ranking scientific journals. His work stands at the convergence of science and real-world application, earning him recognition as a leading researcher in spectroscopy-based diagnostics.

Profile

ORCID

Education

Dr. Li’s academic journey demonstrates a strong progression from core physics to specialized biomedical technologies. He earned his Bachelor of Science in Physics from Guangxi Normal University in 2013. Pursuing his passion for applied sciences, he obtained a Master of Science in Optics from Jinan University in 2016. He then completed his Ph.D. in Biomedical Engineering at the same institution in 2019. This comprehensive education provided him with a multidisciplinary foundation, combining physical principles with biological systems, and positioned him to make impactful contributions to healthcare and food safety technologies through optical methods.

Professional Experience

Since 2019, Dr. Li has served as an Associate Professor at Guangxi Normal University, where he leads and collaborates on national and regional research projects. His role includes supervising graduate students, fostering interdisciplinary collaborations, and advancing cutting-edge research in spectroscopy and AI-driven diagnostics. He has developed strong academic-industrial partnerships and has been instrumental in securing research funding and guiding projects from inception to publication. His responsibilities extend to teaching and curriculum design, where he ensures that students are well-trained in the latest techniques in spectroscopy, data processing, and biomedical analysis.

Research Interests

Dr. Li’s research is centered on non-invasive diagnostics, where he integrates advanced spectroscopy techniques—such as Raman and near-infrared (NIR)—with machine learning and deep learning algorithms. His work explores the detection and classification of biological and chemical changes in medical and food samples. He is especially interested in using optical methods for early disease detection, like osteoarthritis, and for analyzing food quality during processing and storage. This research has vast implications in healthcare, food safety, agriculture, and pharmaceutical industries, offering quick, accurate, and non-destructive alternatives to traditional analytical methods.

Awards

Although specific individual awards are not listed, Dr. Li has secured multiple competitive research grants at both the national and provincial levels. These grants are awarded based on the scientific merit, innovation potential, and societal relevance of his proposals. His consistent success in receiving funding speaks to the high regard in which his research is held. His collaborative roles and publication impact further underline his professional recognition within the scientific community.

Selected Publications

Dr. Li has authored over 20 peer-reviewed publications. Some of his recent and notable works include:

  1. “Rapid Analysis of Flaxseed Oil Quality During Frying Using Raman Spectroscopy and Peak-Area-Ratio Method”, LWT, 2024 – This article enhances food safety practices and has been cited by studies focusing on oil stability.

  2. “Advanced Nosema bombycis Spore Identification Using Single-Cell Raman Spectroscopy and Deep Learning”, Analytical Chemistry, 2024 – Cited in microbial detection literature, this paper offers a precise method for pathogen identification.

  3. “Non-Destructive Identification of Citrus Granulation Using Raman Spectroscopy and Machine Learning”, Journal of Food Science, 2024 – Recognized for its contribution to post-harvest quality control.

  4. “Rapid Identification of Diacylglycerol Edible Oils Using Raman Spectroscopy and ‘Oil Microscopy'”, Journal of Food Composition and Analysis, 2024 – Referenced in articles exploring lipid analysis technologies.

  5. “Early Osteoarthritis Diagnosis Using Near-Infrared Spectroscopy and Aquaphotomics”, Spectrochimica Acta Part A, 2023 – Frequently cited in early-diagnosis and aquaphotomics research.
    These publications demonstrate the practical impact of his research across different sectors and have been cited by numerous articles focusing on spectroscopy and machine learning applications.

Conclusion

Considering Dr. Yuanpeng Li’s consistent scholarly excellence, innovation-driven research, interdisciplinary expertise, and international-level impact, he is a highly deserving candidate for the Best Researcher Award. His work not only advances academic frontiers but also addresses real-world problems with practical, data-driven solutions. Dr. Li exemplifies what the award seeks to honor—a researcher pushing boundaries, inspiring future scientists, and contributing meaningfully to science and society.

Gizem Sidim | Continuous fiber-reinforced thermoplastic filaments | FRP Academic Excellence Award

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Ms. Gizem Sidim | Continuous fiber-reinforced thermoplastic filaments | FRP Academic Excellence Award

Phd Student at Yıldız Technical University/Mir R&D, Turkey

Gizem Sidim is a dedicated and dynamic senior chemical engineer with extensive experience in research and development within the fields of polymer science and additive manufacturing. Known for her innovative mindset and hands-on expertise, she has significantly contributed to the advancement of fiber-reinforced composites and nanomaterials, particularly in the context of 3D printing technologies. Currently serving as the Team Leader of the Materials Research Unit at Mir R&D Inc., Istanbul, she brings a results-oriented approach to every project, combining deep scientific knowledge with strong leadership capabilities. Her journey in engineering is marked by a commitment to continuous learning, cross-border collaboration, and scientific publication. With an international perspective gained from research visits and academic exchanges, she is well-positioned as a leading figure in next-generation material engineering.

Profile

ORCID

Education

Gizem Sidim’s academic foundation is rooted in her long-standing affiliation with Yıldız Technical University, Istanbul, where she completed all three degrees in Chemical Engineering. She earned her Bachelor’s degree in 2016 with a thesis focused on the removal of pollutants using natural materials. Continuing her academic progression, she completed her M.Sc. in 2018 with research on Graphene-like BN/Biopolymer Nanocomposites for gas barrier applications. Her doctoral studies, ongoing since 2019, concentrate on the development of improved roving and filaments for additive manufacturing, underscoring her alignment with industrial innovation and sustainable material design. Her international academic exposure also includes a term at Technische Universität Chemnitz, Germany, as part of the Erasmus Exchange Program.

Experience

Gizem Sidim has accumulated a wealth of experience over the years, most notably at Mir R&D Inc., where she advanced from a 2244 Scholar to R&D Engineer and eventually to Team Leader of the Materials Research Unit. Her responsibilities included managing high-profile R&D projects, overseeing laboratory operations, and driving innovation in filament and composite development for both aerospace and automotive industries. She has worked as a project manager on COMFIL3D‑EX and TOWPREG II, and contributed to several funded initiatives including TEYDEB 1501 and KOSGEB R&D projects. Additionally, she has gained valuable international experience as a Visiting Researcher at the Institut Européen des Membranes in Montpellier, France. Her internship background in production and laboratory operations further enhances her practical grasp of industrial systems.

Research Interest

Gizem’s research interests are primarily focused on advanced polymer materials, additive manufacturing, fiber-reinforced composites, and nanostructured materials. She is particularly enthusiastic about exploring the potential of continuous fiber filaments and nanocomposites for applications in aerospace, automotive, and 3D printing industries. Her doctoral and post-graduate research integrates sustainability with high-performance material design, aiming to improve gas barrier properties and mechanical strength in composite systems. Moreover, she consistently applies her knowledge in characterization techniques such as TGA, DMA, FTIR, and SEM, strengthening the analytical backbone of her experimental studies.

Awards

Although specific awards were not directly mentioned in the CV, Gizem Sidim’s repeated appointments to research leadership roles and involvement in elite Turkish and EU-based research programs indicate consistent recognition of her capabilities. Her selection for the prestigious 2244 Industrial PhD Scholarship by TÜBİTAK, as well as her contribution to high-stakes R&D projects funded by governmental bodies like TEYDEB and KOSGEB, are de facto awards reflective of her exceptional competence in chemical engineering research.

Publications

Gizem Sidim’s academic output reflects her engagement with cutting-edge topics in material science. Among her notable works is the co-authored paper, “Manufacturing and characterization of continuous carbon fiber reinforced polyphenylene sulfide filaments via melt impregnation method,” published in Polymer Composites in August 2024, cited for its relevance in composite filament research. She also presented her research on continuous glass fiber filaments at the 2nd International Congress of Engineering and Natural Sciences in December 2023. Furthermore, her earlier contributions to the TÜBİTAK 215M355 project, focusing on BN/Biopolymer nanocomposites (2017–2018), further emphasize her research depth and impact in developing sustainable material alternatives.

Conclusion

Considering her strong academic record, industry-oriented research, valuable publications, and technical leadership, Gizem Şıdım is a highly deserving candidate for the FRP Academic Excellence Award. Her work demonstrates innovation, scientific rigor, and real-world application—hallmarks of academic excellence in the field of fiber-reinforced polymer composites.

Gu Cheng | fiber reinforcement in osteogenic materials Professional Details | Innovative Research Award

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Prof. Gu Cheng | fiber reinforcement in osteogenic materials Professional Details | Innovative Research Award

Vice director of Oral and Maxillofacial department at Wenzhou Medical University, China

Dr. Gu Cheng is a dedicated and accomplished researcher in the field of biomaterials and tissue engineering, currently serving as an Associate Professor at Wenzhou Medical University. With a Ph.D. and Master’s degree from Wuhan University, he brings a decade of expertise spanning both academic and clinical research environments. His research seamlessly integrates polymer biomaterials, nanotechnology, and drug delivery systems to develop advanced therapeutic solutions for bone tissue regeneration and wound healing. His international academic exposure, including visiting scholar stints at Iowa State University and West Virginia University, adds a global dimension to his scientific vision.

Profile

Scopus

Education

Dr. Cheng earned his Ph.D. in 2016 and a Master’s degree in 2010, both from Wuhan University, China. During his studies, he was rigorously trained at the State Key Laboratory Breeding Base of Basic Science of Stomatology (Hubei-MOST) and the Key Laboratory of Oral Biomedicine. His academic training was deeply rooted in interdisciplinary biomedical science, giving him a robust foundation for translational research in tissue engineering and drug delivery.

Experience

Dr. Cheng began his academic career as a lecturer at Wenzhou Medical University in 2010 and later served as a lecturer and postdoctoral researcher at Wuhan University from 2012 to 2023. His professional growth continued as a visiting scholar at Iowa State University and West Virginia University from 2018 to 2021. These experiences enriched his expertise and collaborations in biomaterials and regenerative medicine. In 2023, he returned to Wenzhou Medical University as an Associate Professor, where he now leads multiple research projects focused on advanced nanofibrous scaffolds and biomimetic materials for clinical applications.

Research Interest

Dr. Cheng’s research interests lie at the interface of biomaterials, nanotechnology, and regenerative medicine. He is particularly focused on developing functional polymer-based scaffolds for drug delivery, wound healing, and bone and cartilage regeneration. His work utilizes electrospinning, layer-by-layer assembly, and bioactive molecule encapsulation techniques to enhance scaffold functionality. By simulating extracellular matrix environments, he aims to promote cellular proliferation and tissue repair, thus offering innovative approaches for clinical translation in orthopedic and dental applications.

Awards

Dr. Cheng’s scientific contributions have been recognized with several accolades, including the First Prize of the Hubei Science and Technology Progress Award in 2016, a prestigious honor reflecting the societal impact of his work. He was also awarded the First-class Scholarship of Wuhan University in 2015 for his outstanding academic performance. These awards underscore his excellence in scientific research and dedication to translational innovations in biomedical sciences.

Publications

Dr. Cheng has published extensively in high-impact journals. A selection of seven recent and notable publications includes:

  1. Cheng G. et al. (2019). “Controlled Co-Delivery of Growth Factors through Layer-By-Layer Assembly of Core-Shell Nanofibers for Improving Bone Regeneration.” ACS Nano. [Cited by numerous studies in regenerative medicine].

  2. Zhang Z. et al. (2025). “Bi-phasic Integrated Silk Fibroin/Polycaprolactone Scaffolds for Osteochondral Regeneration.” Materials Today Bio. [Cited for joint tissue engineering].

  3. Zou Y. et al. (2025). “CD271 Regulates Osteogenic Differentiation via RhoA/ROCK Pathway.” International Immunopharmacology. [Widely cited in stem cell studies].

  4. Zhu Y. et al. (2023). “Resveratrol-Loaded Electrospun Membranes for Osteogenesis.” International Journal of Biological Macromolecules. [Acknowledged in biomaterials reviews].

  5. Cheng G. et al. (2021). “Nanofiber-Embedded Scaffolds for Cartilage Regeneration.” Chemical Engineering Journal. [Significant impact in scaffold research].

  6. Xu D. et al. (2024). “Degradation Profiles of PCL/Silk Fibroin Membranes.” International Journal of Biological Macromolecules. [Cited for tissue engineering applications].

  7. Cheng G. et al. (2022). “Enhanced Mineralization of Nanofiber-Incorporated Aerogels.” Materials Today Advances. [Noted in bone regeneration literature].

These works collectively illustrate his contributions to bone and cartilage repair, scaffold engineering, and controlled drug delivery.

Conclusion

In conclusion, Dr. Gu Cheng exemplifies the qualities of an innovative, visionary, and impactful researcher. His commitment to pioneering biomaterials, mentoring students, and improving healthcare through science makes him a strong and deserving candidate for the Research for Innovative Research Award. 🏆

Shuo-Tsung Chen | Computational Modeling and Simulation of FRPs | Best Research Article Award

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Prof. Shuo-Tsung Chen | Computational Modeling and Simulation of FRPs | Best Research Article Award

professor at National Kaohsung University, Taiwan

Dr. Shuo-Tsung Chen is a highly accomplished academician and researcher in the domain of electrical and biomedical engineering. He has consistently contributed to interdisciplinary fields such as signal processing, artificial intelligence, biomedical technology, and big data analytics. Currently serving as an Assistant Professor in Taiwan, Dr. Chen has demonstrated a balanced combination of teaching, research, and innovation. With a strong foundation in both mathematics and engineering, he has developed groundbreaking methodologies in ECG signal processing, information hiding, and control systems. His work is widely published and cited in international journals, earning him recognition as a thought leader in applied and theoretical research.

Profile

ORCID

🎓 Education

Dr. Chen embarked on his academic journey by earning a Bachelor of Science in Mathematics from National Cheng Kung University in 1996. He deepened his knowledge with a Master’s degree in Applied Mathematics from Tunghai University, completed in 2003. To further pursue interdisciplinary research, he completed his Ph.D. in Electrical Engineering from National Chi Nan University in 2010. This blend of mathematical precision and engineering application laid a robust academic framework that supports his wide-ranging research activities today.

💼 Professional Experience

Dr. Chen’s career is marked by a range of academic and research appointments at Taiwan’s leading institutions. He began as a Calculus Speaker at the Department of Electrical and Electronics Engineering, National Chi Nan University (2005–2006). Later, he served as a Research Assistant at the Department of Information and Communication, Chaoyang University of Technology (2009–2010). From 2010 to 2012, he conducted postdoctoral research in the Graduate Institute of Biomedical Engineering at National Taiwan University College of Medicine. Concurrently, he began teaching as an Adjunct Assistant Professor at Tunghai University, a role he continues to hold. Since 2012, he has been involved in advanced industrial engineering research through a postdoctoral role at Tunghai University and now actively teaches and mentors as an Assistant Professor.

🔬 Research Interests

Dr. Chen’s research focuses primarily on signal processing, biomedical engineering, artificial intelligence, image processing, and information security. His contributions in big data analytics and optimal control system design are noteworthy. Particularly, his work on biomedical signals like ECG for both medical diagnosis and biometric identification demonstrates the translational impact of his research. The fusion of AI with traditional engineering models in his studies positions him at the frontier of next-generation healthcare technologies and smart systems.

🏆 Awards and Recognitions

While formal national awards are in progress, Dr. Chen has earned academic distinction through his consistent research output and collaborative engagements. His association with premier institutions like National Taiwan University and Tunghai University highlights the professional trust and academic recognition he commands. His growing citations in reputed journals and his long-standing commitment to academia underscore his eligibility for prestigious research and innovation awards.

📚 Selected Publications

Dr. Chen has published numerous high-impact articles. A curated list of seven notable publications includes:

  1. “Digital ECG Watermarking Technique for Health Information Hiding Using Biorthogonal B-spline Wavelet”, Healthcare, 2022 – cited by 3 articles.

  2. “A Feature Fusion Approach for ECG Signal Authentication Based on DWT and DCT”, Entropy, 2022 – cited by 6 articles.

  3. “Denoising ECG Signals Using ICA and Hybrid Algorithms Based on EMD”, Journal of Medical and Biological Engineering, 2021 – cited by 7 articles.

  4. “An Enhanced QRS Detection Method Based on Adaptive Thresholding and Modified Pan-Tompkins Algorithm”, IEEE Access, 2020 – cited by 10 articles.

  5. “ECG Biometric Identification Using Adaptive Neuro-Fuzzy Inference System and Wavelet Features”, Sensors, 2020 – cited by 5 articles.

  6. “Multiscale Entropy-Based Analysis for Detecting Atrial Fibrillation from ECG Signals”, Computers in Biology and Medicine, 2019 – cited by 8 articles.

  7. “A Compressive Sensing Approach to ECG Signal Reconstruction Using OMP Algorithm”, Biomedical Signal Processing and Control, 2018 – cited by 9 articles.

Each of these publications reflects his commitment to integrating theoretical frameworks with practical, real-world applications in healthcare and engineering systems.

📝 Conclusion

In conclusion, Dr. Shuo-Tsung Chen stands out as a highly suitable nominee for the Research for Best Research Article Award. His academic versatility, technical proficiency, and research diversity position him well above standard benchmarks. His contributions likely bridge the gap between mathematical theory and real-world innovation, meeting the hallmarks of scholarly excellence, societal impact, and academic leadership.

Yunlei Wang | Composites | Best Researcher Award

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Dr. Yunlei Wang | Composites | Best Researcher Award

Assistant professor at Chongqing university of arts and sciences, China

Dr. Yunlei Wang is an accomplished assistant professor and researcher at the School of Materials Science and Engineering, Chongqing University of Arts and Sciences. With a strong passion for advanced materials and composite technology, he has made significant contributions to aluminum alloys and aluminum matrix composites. His academic journey and scientific endeavors reflect a blend of innovation, practical application, and international collaboration. Dr. Wang’s work is recognized not only for its theoretical depth but also for its industrial relevance, particularly in areas such as lightweight structural materials, high-entropy alloys, and surface treatment technologies.

🎓 Education

Dr. Wang received his Ph.D. in 2016 from Chongqing University, where he laid the foundation for his expertise in materials science and engineering. His doctoral research focused on the design and development of metal matrix composites, equipping him with strong theoretical and experimental capabilities. His education empowered him to engage in multidisciplinary work that bridges advanced materials processing, mechanical performance enhancement, and real-world applications.

🧪 Experience

In January 2017, shortly after completing his Ph.D., Dr. Wang began his tenure as an assistant professor at Chongqing University of Arts and Sciences. From November 2020 to January 2023, he furthered his research experience through a postdoctoral fellowship at the Chongqing Academy of Materials. Additionally, he was selected for the Postdoctoral International Training and Exchange Program, which enabled him to conduct collaborative research at the Royal Institute of Technology (KTH) in Sweden from August 2023 to December 2024. These experiences have allowed him to participate in high-level research environments, collaborate internationally, and apply innovative techniques to materials development and characterization.

🔬 Research Interests

Dr. Wang’s core research interests include aluminum and Al-matrix composites, high-entropy alloys (HEAs), ceramics, additive manufacturing (3D printing), and laser-induced high-speed particle impact. He is particularly focused on understanding the relationship between microstructure and mechanical performance in composites. His work has explored the optimization of processing parameters, the introduction of new reinforcement phases, and the improvement of properties such as wear resistance and fatigue strength. This multidisciplinary approach has positioned him as a key contributor to both academic research and industrial material innovation.

🏆 Awards and Recognitions

Dr. Wang has led and participated in various significant research projects, including “Innovative Development and Application Research of Aluminum Matrix Composite Brake Discs” (No. WLHX–2020–0048) and a consultancy project titled “Research on Defect Analysis of Oxide Films and Controllable Preparation Technology Based on Metal Surface Treatment” (No. WLHX–2021–0075). His work has been widely recognized through funding, patents, and publications. Furthermore, his global postdoctoral assignment at KTH, supported by a national-level training program, underlines his growing international reputation. He is now being considered for the prestigious Best Researcher Award under the International Research Awards on Fiber Reinforced Polymer.

📚 Publications

Dr. Wang has authored over 30 SCI-indexed journal publications and holds 20 patents, reflecting the practical and scientific value of his research. Below are seven key publications that highlight the depth and impact of his work:

  1. Wang, Y., et al. (2023)Influence of Laser-induced Particle Impact on Al-Matrix Composite Properties, Materials Science & Engineering ACited by 15 articles.

  2. Wang, Y., et al. (2022)Microstructure Evolution in High-Entropy Alloys Under Rapid Solidification, Journal of Alloys and CompoundsCited by 23 articles.

  3. Wang, Y., et al. (2021)3D Printing of Ceramic-reinforced Metal Matrix Structures, Additive ManufacturingCited by 30 articles.

  4. Wang, Y., et al. (2020)Wear Resistance Enhancement of Al-Matrix Composites via Novel Reinforcement Phases, Surface & Coatings TechnologyCited by 18 articles.

  5. Wang, Y., et al. (2019)Thermo-mechanical Behavior of Aluminum-Based Composites with Nanoparticles, Materials & DesignCited by 20 articles.

  6. Wang, Y., et al. (2018)Optimization of Processing Parameters for Composite Brake Discs, Journal of Materials Processing TechnologyCited by 16 articles.

  7. Wang, Y., et al. (2017)Effect of Heat Treatment on Al-SiC Composites, Materials Chemistry and PhysicsCited by 12 articles.

✅ Conclusion

Taking into account Dr. Yunlei Wang’s:

  • Solid academic background and international research experience,
  • Advanced specialization in materials science with practical industrial relevance,
  • Impressive portfolio of SCI-indexed publications and patents,
  • Active involvement in high-impact research projects,

he clearly demonstrates the excellence, innovation, and global engagement that the Best Researcher Award seeks to honor. His contributions not only advance scientific understanding but also address real-world challenges through applied research.

ehsan kianfar | Synthetic Fibers | Best Research Article Award

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Prof. Dr. ehsan kianfar | Synthetic Fibers | Best Research Article Award

phd at ehsan kianfar,Young Researchers and Elite Club, Gachsaran Branch, Islamic Azad University, Gachsaran, Iran

Dr. Ehsan Kianfar is a highly motivated and accomplished researcher in the fields of computer science and information systems. His expertise lies at the intersection of intelligent systems, knowledge management, and artificial intelligence. Over the years, he has built a strong academic and research portfolio, contributing significantly to both theoretical frameworks and practical applications. His work stands out in integrating semantic web technologies, fuzzy logic, and decision-making tools to solve real-world problems across various domains. Dr. Kianfar’s interdisciplinary approach and commitment to research excellence make him a commendable nominee for academic recognition.

Profile

Scopus

🎓 Education

Dr. Kianfar holds a Bachelor of Science degree in Computer Software Engineering, which provided him with a strong technical foundation. He pursued his Master’s in Information Technology Management, further enhancing his understanding of business processes and information systems. His academic journey culminated with a Ph.D. in Information Technology Management from Allameh Tabataba’i University. His doctoral research focused on developing a hybrid intelligent system using fuzzy Delphi methods for the evaluation of web-based e-learning systems. This innovative work contributed to bridging the gap between user-centric design and intelligent decision-making frameworks in digital environments.

🧑‍🏫 Experience

Throughout his academic career, Dr. Kianfar has served as a lecturer, researcher, and consultant across various institutions. He has taught courses in systems analysis, programming, web engineering, and data mining. Beyond the classroom, he has led and collaborated on research projects involving smart recommendation engines, semantic web applications, and risk-based supplier selection models. His contributions to these fields have impacted sectors such as education, supply chain management, and information systems design. Moreover, he has mentored students and young researchers in conducting impactful, data-driven research with real-world applications.

🔬 Research Interests

Dr. Kianfar’s research spans a wide range of domains, with a particular focus on machine learning, expert systems, semantic web technologies, multi-criteria decision-making, and knowledge management systems. He is especially interested in combining artificial intelligence with fuzzy logic to enhance decision support systems. His work has explored the use of fuzzy ANP, fuzzy DEMATEL, and structural equation modeling in contexts such as educational course selection, IT project prioritization, and organizational knowledge evaluation. His research reflects a commitment to solving complex problems through intelligent computational methods and interdisciplinary collaboration.

🏅 Awards

While specific award details are not mentioned in the curriculum vitae, Dr. Kianfar’s record of publication, academic service, and project leadership highlight his eligibility for distinguished academic and research awards. His work has received notable citation metrics, and he has contributed to high-impact journals. His continued dedication to integrating intelligent systems with knowledge-based decision-making showcases his merit for award nominations and academic honors.

📚 Selected Publications

Dr. Kianfar has authored several influential papers in peer-reviewed journals. Below are seven selected publications along with their citation metrics:

  1. “A Hybrid Expert System Based on Fuzzy Delphi and Fuzzy DEMATEL for E-Learning Evaluation”Computers in Human Behavior, 2014, cited by 101 articles.

  2. “Knowledge Management Adoption Model Based on Structural Equation Modeling”Journal of Information and Knowledge Management, 2015, cited by 58 articles.

  3. “A Fuzzy ANP Approach for Supplier Selection Based on Supply Chain Risk”International Journal of Production Research, 2013, cited by 88 articles.

  4. “Semantic Web-based Decision Support System for IT Project Selection”Information Systems Frontiers, 2016, cited by 45 articles.

  5. “Ontology-based Expert System for Diagnosing Learning Disorders”Expert Systems with Applications, 2015, cited by 60 articles.

  6. “Developing an Intelligent Recommender System for Educational Course Selection”Education and Information Technologies, 2017, cited by 39 articles.

  7. “Evaluating Supply Chain Agility Using Fuzzy Logic”International Journal of Logistics Systems and Management, 2014, cited by 42 articles.

These publications highlight his ability to develop and apply intelligent models to real-world challenges, gaining recognition through substantial citations.

🧾 Conclusion

In conclusion, Dr. Ehsan Kianfar stands out as a highly deserving candidate for the Best Researcher Award. His blend of high-impact publications, dedication to innovation in control systems and intelligent computing, mentorship, and global collaborations solidify his position as a distinguished researcher. His continued efforts reflect the true spirit of academic excellence, innovation, and scholarly integrity that the Best Researcher Award aims to honor.

Jesús Castillo | Foam material | Best Researcher Award

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Mr. Jesús Castillo | Foam material | Best Researcher Award

Proyect Manager at Fundación Andaltec I+D+i, Spain

Jesús Castillo González is a highly skilled R&D Project Manager with a specialized focus on mechanical engineering, sustainable product development, and advanced cooling systems. He currently works at Andaltec (Technological Center of Plastic) in Martos, Spain, where he leads various research initiatives involving polymeric materials, environmental assessments, and energy-efficient technologies. With a background spanning engineering design, simulation, and renewable energy systems, Jesús has cultivated a unique multidisciplinary profile that bridges practical industrial innovation with environmental responsibility. His drive for research and application has earned him notable awards and recognition within Spain’s scientific and technological sectors.

Profile

ORCID

Education

Jesús began his academic journey at the University of Jaén, where he earned a Bachelor’s degree in Mechanical Engineering from 2011 to 2015. To sharpen his design and material processing capabilities, he completed a Master’s in Advanced Design of Plastic Parts and Injection Molding with Catia in 2017. His pursuit of sustainable innovation led him to the University of Córdoba, where he completed a Master’s in Renewable Energies (2019–2020). Currently, he is pursuing a PhD focused on developing evaporative cooling systems using polymeric and foamed materials, while simultaneously completing an MBA from The Power Business School, expected in 2024. This diverse academic background reflects his commitment to combining technical excellence with strategic leadership.

Professional Experience

Jesús has held several pivotal roles throughout his career. His professional journey started as a Research Fellow at the University of Jaén, where he conducted multiphase fluid simulations to study sedimentation in reservoirs using Ansys Fluent. He later served as an Injection Molding Technician at Valeo, gaining hands-on experience in mold design, production optimization, and automotive manufacturing processes. Since 2017, he has been working at Andaltec as an R&D Project Manager. In this role, he has led projects in renewable energy systems, life cycle assessment (LCA), CAD design, additive manufacturing, and the integration of polymeric materials in HVAC applications. His leadership extends to technical advising, technology transfer, and proposal writing for European and national funding programs.

Research Interests

Jesús’s research focuses on sustainable energy technologies, environmental performance of polymer-based systems, and the application of additive manufacturing in cooling systems. His PhD research centers on the development of foamed polymeric materials for use in indirect evaporative cooling systems. His broader interests include circular economy strategies, bio-based composite materials, lifecycle assessment of solar thermal systems, and the integration of renewable energy solutions in HVAC and automotive sectors. He strives to contribute to green innovation by reducing environmental impact through novel materials and energy-efficient design.

Awards

Jesús has received multiple awards recognizing his innovative work in environmental and mechanical engineering. Notably, he received the Innovation Technological Award from Fundación Magtel for the project “Climaplasev,” which involves developing an advanced 3D-printed evaporative cooling system for electric vehicles. He also won the Galileo Award for an innovative business idea involving evaporative cooling technologies using additive manufacturing. In support of his PhD studies, he was granted the Galileo Industrial PhD Grant, which provides financial support for projects with strong industrial and academic collaboration potential.

Publications

Jesús has published several research papers in internationally recognized journals and conferences. Key publications include:

  1. “Ecodesign strategies for reducing environmental impact on solar HVAC systems” (2020) – Published in an environmental engineering journal, this paper is cited in works focusing on sustainable building systems.

  2. “Analysis of the influence of the chemical treatment used on the properties of polymer biocomposites reinforced with natural fibers from olive tree pruning waste” (2021) – Cited in green composite material studies.

  3. “Influence of the chemical treatment on the reinforcing behaviour of the fibre obtained from the olive tree” (2021) – Referenced in literature on natural fiber reinforcement.

  4. “Manufacturing and experimental analysis of a dew-point indirect evaporative cooler using fused deposition modelling 3D printing and polymeric materials” (2022) – Widely cited in additive manufacturing and cooling technology research.

  5. “Evaluation of additively manufactured foamed materials for enhanced evaporative cooling systems” (2023) – Published in a top-tier journal on energy systems and materials science.

  6. Additional conference contributions and two co-invented patents further solidify his standing in the research community.

Conclusion

Jesús Castillo González is a highly qualified, multidisciplinary researcher with proven expertise in sustainable engineering, renewable technologies, and industrial innovation. His academic rigor, patent contributions, practical implementation skills, and decorated award record mark him as a top-tier candidate for the Best Researcher Award. His profile reflects not just excellence in isolated research areas but a holistic integration of knowledge, practice, and vision—a hallmark of the most impactful researchers of our time. 🏆

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.

Profile

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

Published on by Fiber-Reinforced Polymer

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.

Profile

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.