Elsayed Elkamhawy | Engineering Achievements | Excellence in Research

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Dr. Elsayed Elkamhawy | Engineering Achievements | Excellence in Research

Zagazig university | Egypt

Elsayed Elkamhawy is a Project Manager and Assistant Professor specializing in water engineering, hydraulics, and flood risk mitigation. He combines strong academic expertise with hands-on consultancy experience to deliver sustainable and practical engineering solutions. His work spans hydrological and hydraulic modeling, design and assessment of water structures, rainfall analysis, and flood management systems. Actively engaged in teaching and research, he delivers undergraduate and postgraduate courses in core water engineering disciplines while contributing to high-impact international journals. His interdisciplinary approach bridges research, education, and professional practice, supporting resilient infrastructure development and advancing innovation in civil and water engineering.

 

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Mr. Alireza Oghabi | Engineering Achievements | Research Excellence Award | 2741

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Mr. Alireza Oghabi | Engineering Achievements | Research Excellence Award

University of Tabriz | Iran

A mechanical engineering professional specializing in manufacturing and production with strong academic training and practical industrial experience. Currently serving as a university lecturer on a tuition-fee basis, contributing to teaching and academic development in mechanical engineering. Hands-on experience includes precision machining, hand lathe operations, CNC lathe work, and manufacturing processes within an industrial machinery company. Holds advanced qualifications across associate, bachelor’s, and master’s levels with excellent academic performance. Technical expertise covers machining processes, surface engineering, and coating technologies, complemented by proficiency in SolidWorks for industrial design and PowerMill for manufacturing applications. Actively engaged in research focused on advanced surface modification techniques, particularly electrophoretic deposition and micro-arc oxidation for improving mechanical and electrochemical properties of steel substrates. Author of multiple research papers exploring carbide-based coatings and innovative ionic liquids for enhanced surface performance. Possesses intermediate English communication skills and working knowledge of essential engineering software tools, supporting both academic and industrial collaboration.

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Qinjie Lin | Structural Engineering | Innovative Research Award

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Mr. Qinjie Lin | Structural Engineering | Innovative Research Award

Chongqing University | China

Qinjie Lin is a researcher affiliated with Chongqing University, China, where he is connected with the State Key Laboratory of Power Transmission Equipment & System Security and New Technology and participates in engineering research related to mechanical systems and thermal-fluid dynamics. His work, as seen on academic networking sites like ResearchGate, shows involvement in both simulation-based engineering analysis and experimental studies of mechanical and thermal systems.  His publication record (as indexed on ResearchGate) includes research on the temperature and fluid characteristics of gear and transmission systems, particularly in aerospace applications. Several of his papers focus on numerical analysis of fluid and temperature fields in accessory gearboxes and fluid-solid coupling heat transfer in aviation transmission components, indicating expertise in leveraging computational fluid dynamics (CFD) and finite element modeling (FEM) for engineering problems.  Earlier work by Lin also explores surface integrity and material behavior following shot peening, a widely used surface-strengthening process. These studies analyze how parameters like coverage and peening velocity influence residual stress, surface roughness, and microstructural characteristics of steel components—topics relevant to mechanical design, fatigue life, and manufacturing quality.  His research output shows a blend of practical engineering and theoretical modeling, with multiple articles and preprints that reflect both applied mechanics and thermal field simulation. The ResearchGate profile lists around 11 publications with hundreds of reads and dozens of citations, suggesting a developing academic impact in mechanical and aerospace engineering domains.  Although specific Scopus metrics (such as citation counts and h-index) weren’t retrievable from the provided link, his published work reflects active engagement with numerical analysis methods and applied research problems, especially in the context of energy transfer, materials processing, and mechanical systems common to advanced engineering research at contemporary Chinese universities.

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Numerical Analysis of Fluid and Temperature Field of an Accessory Gearbox

– Chinese Journal of Mechanical Engineering (English Edition), 2025

Vassilis Kostopoulos | Engineering Achievements | Best Researcher Award

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Prof. Vassilis Kostopoulos | Engineering Achievements | Best Researcher Award

Prof. Vassilis Kostopoulos | University of Patras | Greece

Professor Vassilis Kostopoulos is a leading Greek academic in applied mechanics, composite materials, and aerospace engineering. He holds a degree in Mechanical Engineering from the National Technical University of Athens and a PhD in Applied Mechanics from the University of Patras, specializing in wave propagation, scattering, and non-destructive testing of composite materials. He has served as Professor and Director of the Applied Mechanics & Vibrations Laboratory at the University of Patras, contributing significantly to its international visibility and research impact. He has held prestigious international appointments as a Visiting Scientist at JRC Petten in the Netherlands, as a Visiting Professor at the University of Delaware in the United States, and most recently at George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș in Romania. Professor Kostopoulos has played influential roles in major European aerospace and composite-materials initiatives, serving on the Technical Committee of Clean Aviation, the Advisory Council for Aviation Research and Innovation in Europe, and the Council of the European Society for Composite Materials, where he also served as President. He has additionally contributed to several European research and innovation program committees and evaluation panels. His expertise spans a broad teaching portfolio at undergraduate and graduate levels, including mechanics, composite materials, wave propagation, elasticity, fatigue, structural design, non-destructive inspection, and aerospace technologies. His research interests include lightweight composite structures, structural health monitoring, nano-engineered composites, high-strain-rate behavior, additive manufacturing, space technologies, unmanned aerial systems, and biomechanics. Professor Kostopoulos has an extensive scholarly record, with hundreds of publications in international journals and conferences, several books and book chapters, invited lectures, and numerous technical reports. He has coordinated a large number of international research projects funded by European and global organizations, supervised many PhD and MSc theses, co-organized numerous international conferences, and holds multiple European, US, and national patents. His work has earned thousands of citations, high bibliometric indices, and multiple international awards in aerospace, innovation, and space-related competitions.

Profile: Scopus | Orcid

Featured Publications

Karatzas, E., Nikolaou, E., Pitsis, A., Alexopoulos, S., Roussos, S., Georgantakis, E., Lappas, V., & Kostopoulos, V. (2026). Conceptual design and analysis of a tube-launched fixed-wing UAV with integrated folding wing systems. Aerospace Science and Technology. https://doi.org/10.1016/j.ast.2025.111248

Moica, S., Lucian, T., Kostopoulos, V., & Mostafa, N. A. (2025). GenAI technology approach for sustainable warehouse management operations: A case study from the automotive sector. Sustainability. https://doi.org/10.3390/su17209081

Tsokanas, P., Santandrea, F., Momm, G. G., Rajčić, V., Skejić, D., Rajnovic, D., da Silva, L. F. M., & Kostopoulos, V. (2025). Certification of adhesively bonded structures: Review and outlook. International Journal of Adhesion and Adhesives. https://doi.org/10.1016/j.ijadhadh.2025.104041

Bouzoukis, K.-P., Moraitis, G., Kostopoulos, V., & Lappas, V. (2025). An overview of CubeSat missions and applications. Aerospace. https://doi.org/10.3390/aerospace12060550

Nikolaou, E., Karatzas, E., Kilimtzidis, S., & Kostopoulos, V. (2025). Winglet design for class I mini UAV—Aerodynamic and performance optimization. Engineering Proceedings. https://doi.org/10.3390/engproc2025090111

Petropoulos, G. N., Tsokanas, P., Kotrotsos, A., & Kostopoulos, V. (2025). Recycled glass fibre–epoxy composites based on recovered fabrics from an environment-friendly combined solvolysis and thermolysis route. Composites Science and Technology. https://doi.org/10.1016/j.compscitech.2025.111048

Sungyoung Yoon | Engineering Achievements | Best Researcher Award

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Dr. Sungyoung Yoon | Engineering Achievements | Best Researcher Award

Dr. Sungyoung Yoon | Samsung Electronics | South Korea

Dr. Sungyoung Yoon is a distinguished plasma engineer specializing in the development of advanced plasma devices for semiconductor manufacturing. He currently serves as a Principal Engineer at Samsung Electronics, where he leads innovations in remote plasma sources (RPS), PECVD plasma uniformity control, and selective etching processes for next-generation V-NAND and 3D memory devices. He earned his Ph.D. in Nuclear Engineering with a focus on plasma physics and engineering from Seoul National University, where his research explored hydroxyl radical generation mechanisms in electrolyte streamer discharges. His academic foundation and technical expertise have driven a prolific career bridging plasma diagnostics, numerical modeling, and applied plasma engineering. Before joining Samsung, Dr. Yoon worked as a Senior Researcher at the Korea Institute of Fusion Energy (KFE) and as a Postdoctoral Associate at Seoul National University, where he contributed to projects involving plasma chemistry, optical diagnostics, and radical generation for industrial and biomedical applications. Dr. Yoon has authored SCI-indexed publications in leading journals such as Plasma Sources Science and Technology, Scientific Reports, and Physical Review Plasmas, and holds over a dozen international patents across Korea, the U.S., Taiwan, and China. His recent research explores metamaterials for plasma control, phase-controlled etching, and dual-frequency plasma systems.

Profile: Google Scholar

Featured Publications

Yoon, S.-Y., Jeon, H., Yi, C., Park, S., Ryu, S., & Kim, S. B. (2018). Mutual interaction between plasma characteristics and liquid properties in AC-driven pin-to-liquid discharge. Scientific Reports, 8(1), 12037. https://doi.org/10.1038/s41598-018-30466-9

Kang, K. A., Ryu, Y. S., Piao, M. J., Shilnikova, K., Kang, H. K., Yi, J. M., Boulanger, M., … Yoon, S.-Y., … Hyun, J. W. (2018). DUOX2-mediated production of reactive oxygen species induces epithelial mesenchymal transition in 5-fluorouracil resistant human colon cancer cells. Redox Biology, 17, 224–235. https://doi.org/10.1016/j.redox.2018.04.008

Baek, K. H., Yong, H. I., Yoo, J. H., Kim, J. W., Byeon, Y. S., Lim, J., Yoon, S.-Y., Ryu, S., & Jo, C. (2020). Antimicrobial effects and mechanism of plasma activated fine droplets produced from arc discharge plasma on planktonic Listeria monocytogenes and Escherichia coli O157:H7. Journal of Physics D: Applied Physics, 53(12), 124002. https://doi.org/10.1088/1361-6463/ab6cb0

Lee, J. Y., Kim, K. H., Park, S. Y., Yoon, S.-Y., Kim, G. H., Lee, Y. M., Rhyu, I. C., & Seol, Y. J. (2019). The bactericidal effect of an atmospheric-pressure plasma jet on Porphyromonas gingivalis biofilms on sandblasted and acid-etched titanium discs. Journal of Periodontal & Implant Science, 49(5), 319–329. https://doi.org/10.5051/jpis.2019.49.5.319

Kang, K. A., Piao, M. J., Eom, S., Yoon, S.-Y., Ryu, S., Kim, S. B., Yi, J. M., & Hyun, J. W. (2020). Non-thermal dielectric-barrier discharge plasma induces reactive oxygen species by epigenetically modifying the expression of NADPH oxidase family genes in keratinocytes. Redox Biology, 37, 101698. https://doi.org/10.1016/j.redox.2020.101698

Fei Wang | Chemical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Fei Wang | Chemical Engineering | Best Researcher Award 

Assoc. Prof. Dr. Fei Wang | Baotou Teachers College | China

Dr. Fei Wang, an Associate Professor at Baotou Teachers College, earned a Ph.D. from Lanzhou University of Technology in 2021. Specializing in conjugated porous polymers (CPPs), Dr. Wang’s research focuses on the structural design, functionalization, and application of CPPs for environmental remediation. By fine-tuning pore structures and functional groups, Dr. Wang has developed high-performance CPP adsorbents for efficient removal of tetracycline antibiotics and metal ions, supported by comprehensive mechanistic insights. Recent work has also expanded into photothermal evaporation applications, showcasing the versatility and innovation in CPP-based material science.

Academic Profile 

Scopus

Education

Dr. Fei Wang completed her doctoral studies at Lanzhou University of Technology, earning a Ph.D. in 2021. During her doctoral research, she focused on the synthesis and application of conjugated porous polymers (CPPs), laying the foundation for her current work in advanced materials chemistry. Her academic training provided a strong background in polymer design, characterization techniques, adsorption science, and mechanistic analysis. The rigorous program at Lanzhou University of Technology, a respected institution in engineering and materials science, allowed her to develop both theoretical knowledge and hands-on laboratory expertise essential for advanced research in functional materials.

Professional Experience

Dr. Fei Wang currently serves as an Associate Professor at Baotou Teachers College, where she contributes to both undergraduate and graduate teaching, while leading a research group focused on environmental and material sciences. In this role, she has been actively involved in curriculum development, mentoring of student research projects, and interdisciplinary collaboration within the faculty. Since joining Baotou Teachers College, she has established a research niche in porous polymer synthesis, successfully integrating her academic background with applied environmental solutions. Her work bridges chemistry and environmental engineering, emphasizing practical material innovations for real-world problems such as wastewater treatment and pollutant removal.

Research Interests

Dr. Wang’s research is centered on the design, synthesis, and functionalization of conjugated porous polymers (CPPs) for environmental and energy-related applications. She has dedicated her work to understanding the relationship between polymer structure and performance, particularly in the context of adsorption of tetracycline antibiotics and heavy metal ions from contaminated environments. Her approach involves the precise tailoring of pore structures and functional groups to optimize selectivity, capacity, and regeneration performance. Additionally, she has extended her work into photothermal evaporation, exploring the use of CPPs in clean water production through solar-assisted desalination and evaporation. Her research integrates material chemistry, surface science, and environmental technology, contributing innovative solutions to global water and pollution challenges.

Awards and Recognition

While still at an early stage of her academic career, Dr. Wang has garnered recognition for her contributions to the field of functional polymer materials and environmental remediation. Her research outcomes, particularly in CPP-based adsorption systems, have been well-received in academic circles, with presentations at national conferences and publications in peer-reviewed journals. These accomplishments reflect her growing reputation as a promising researcher in the Chinese scientific community. Her contributions are considered impactful for both fundamental understanding and application-driven innovation in advanced material development.

Publications

Recovery of lanthanum by monolithic conjugated porous polymers from seawater with high selectivity

Author: Fei Wang , Gang Hu , Hanxue Sun , Jiyan Li , Yixin Liu , Junfang Gao
Journal: Desalination
Year: 2025

Conclusion

Dr. Fei Wang stands out as a dedicated and forward-thinking researcher whose work bridges advanced polymer chemistry with practical environmental solutions. Her expertise in the design and application of conjugated porous polymers demonstrates both scientific depth and societal relevance. With a strong academic background, growing research portfolio, and a commitment to innovation, she continues to make meaningful contributions to material science and environmental engineering. As an Associate Professor at Baotou Teachers College, she is well-positioned to drive impactful research and mentor the next generation of scientists in the field.