Dr. Christen Tharwat | Smart Materials | Best Researcher Award

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Dr. Christen Tharwat | Smart Materials | Best Researcher Award

Dr. Christen Tharwat | National Research Centre | Egypt

Dr. Christen Tharwat is a Postdoctoral Researcher specializing in nanophotonics, advanced materials, and applied nanotechnology with extensive experience in developing optical sensors for environmental applications and nanomaterial synthesis for biomedical and industrial use. Her research integrates plasmonic and graphene-based gas sensors, magnetic and semiconductor nanoparticles, and nanotechnology for wastewater treatment and biomedical coatings. 39 Citations by 39 documents 11 Documents 4 h-index View h-index button is disabled in preview mode At the National Research Centre in Egypt, she has contributed significantly to the Metal Physics Lab, focusing on innovative metal alloy treatments, ceramic coatings for implants, and solid-state material enhancements. Her academic background includes advanced studies in laser-enhanced sciences, emphasizing the synthesis and modification of nanostructured materials for functional applications. In addition to her research, she has been actively involved in academic and scientific writing, preparing manuscripts, research projects, and journal articles that align with institutional and publication standards. Her scientific contributions reflect a commitment to advancing the applications of nanotechnology in health, environment, and materials science.

Profiles: Scopus | Google Scholar

Featured Publications

Girgis, E., Adel, D., Tharwat, C., Attallah, O., & Rao, K. V. (2015). Cobalt ferrite nanotubes and porous nanorods for dye removal. Advances in Nano Research, 3(2), 111.

Mahmoud, A. H. K., Korany, F. M. H., Tharwat, C., Hussein, M., Swillam, M. A., et al. (2020). Surface roughness effect on characteristics of Si nanowire solar cell. Journal of Photonics for Energy, 10(4), 045502–045502.

Girgis, E., Tharwat, C., & Adel, D. (2016). Ferrites nanoflowers for dye removal applications. Journal of Advanced Nanomaterials, 1, 49–56.

Gouda, A. M., Elsayed, M. Y., Tharwat, C., & Swillam, M. A. (2016). Silicon-based nanostructures as surface enhanced Raman scattering substrates. Proceedings of Photonics North (PN), 1.

Aziz, M. A. S. C., Othman, M. A., Amer, A., & Ghanim, A. R. M. (2024). Fabrication of crystalline silicon nanowires coated with graphene from graphene oxide on amorphous silicon substrate using excimer laser. Heliyon.

Tharwat, C., Badr, Y., Ahmed, S. M., Bishay, I. K., & Swillam, M. A. (2024). CW laser beam-based reduction of graphene oxide films for gas sensing applications. Optical and Quantum Electronics, 57(1), 69.

Prof. Mohamed Gomaa | Advanced Composites | Best Researcher Award

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Prof. Mohamed Gomaa | Advanced Composites | Best Researcher Award

Prof. Mohamed Gomaa | National Research Centre | Egypt

Prof. Dr. Mohamed Gomaa is a leading geophysicist and head of the Geophysical Exploration Research Group at the Central Laboratories Network and Center of Excellence, National Research Centre (NRC), Egypt, with a distinguished career dedicated to advancing the field of geophysics through innovative research, teaching, and scientific leadership. His primary research focuses on modeling and simulation of the electrical properties of rocks and minerals, with a particular emphasis on understanding the physical properties of grain textures, mixture laws, composites, and complex geological mixtures, contributing significantly to both theoretical knowledge and practical applications in applied geophysics and geology. Over the course of his career, he has authored 54 documents with 880 citations, achieving an h-index of 17, reflecting his impactful contributions to the scientific community, and has presented over 20 abstracts at international conferences and workshops on a wide range of geophysical and geological topics. He has been recognized with multiple awards for scientific excellence, research impact, and contributions to climate-related initiatives, highlighting his commitment to advancing knowledge and addressing global scientific challenges. In addition to his research, he holds an Egyptian patent and actively teaches courses in geophysics and geology at universities in Egypt, mentoring the next generation of scientists and professionals. Beyond his academic and research roles, Prof. Gomaa has made substantial contributions to the scientific community, serving as editor, associate editor, and reviewer for hundreds of international journals, contributing to the establishment of professional societies and research units, and participating in the organization of numerous international conferences. He is also engaged in national committees focused on Earth standards and natural resource conservation, exemplifying his dedication to the integration of scientific research with societal and environmental applications, and his ongoing efforts continue to shape and advance the field of geophysics both nationally and internationally.

Profiles: Scopus | Orcid

Featured Publications

Gomaa, M. M. (2025). Electrical properties as a tool for oil and gas exploration: A case study of Wadi Saal, East Central Sinai, Egypt. Journal of Geophysics and Engineering.

Gomaa, M. M. (2024). Grain size effect on electrical properties of dry friable sand. The European Physical Journal Special Topics.

Ramah, M., Heggy, E., Nasr, A., Toni, M., Gomaa, M. M., Hanert, E., & Kotb, A. (2024). Nubian aquifer linkage to the High Aswan Dam Reservoir: Initial assessments of processes and challenges. Journal of Hydrology.

Gomaa, M. M., & Abd El Aziz, E. A. (2024). Depositional environment, petrophysical evaluation and electrical properties of Zeit Formation, Northwestern Shore of Gulf of Suez, Egypt. Journal of Earth Science.

Gomaa, M. M. (2023). Speculation of salinity and heterogeneity for some dry and saturated sandstone rocks. Materials Chemistry and Physics.

Gomaa, M. M., Elshenawy, A. M., Basheer, A. A., Moawad, M., & Kotb, A. (2023). Synthetic mixture of sand and shale: How conductor (shale) and saturation influence electrical characteristics. Applied Water Science.

Gomaa, M. M. (2023). Electrical properties of hematite and pure sand synthetic homogeneous mixture. Applied Water Science.

 

 

Dr. Tianyu Fu | Advanced Composites | Best Researcher Award

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Dr. Tianyu Fu | Advanced Composites | Best Researcher Award

Dr. Tianyu Fu | Changzhou College of Information Technology | China

Dr. Tianyu Fu is a research-driven academic specializing in advanced manufacturing and electromagnetic-thermal coupling technologies, with a focus on Carbon Fiber Reinforced Polymer (CFRP) induction heating and composite processing systems. His expertise integrates mechanical design, electromagnetic field analysis, and automated composite fabrication, contributing to advancements in high-performance materials for aerospace and defense industries. His research portfolio includes multiple funded projects under the National Natural Science Foundation of China and Jiangsu Provincial Research Program, emphasizing adaptive dynamic superposition magnetic field technologies for precise temperature control and efficient curing processes. Dr. Fu has produced over ten SCI-indexed publications and provides peer review for leading journals in the field. His technical leadership extends to the development of a Key Laboratory for Carbon Fiber Pressure Vessel Forming Technology and collaborative projects with major industry partners such as COMAC and the China Aerospace Science and Industry Corporation. Among his significant achievements is the creation of China’s first robotic dry winding device for automated composite manufacturing, which has been successfully applied to military-grade composite shell production. His research continues to drive innovation in intelligent electromagnetic heating and carbon fiber composite applications.

Profile: Scopus

Featured Publications

Fu, T. (2025). Induction heating of CFRP based on macro-microscopic combination of dynamic superposition magnetic fields. Applied Composite Materials.

Huang Zan | Materials Chemistry | Best Scholar Award – 1462

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Prof Dr. Huang Zan | Materials Chemistry | Best Scholar Award

Guangzhou Maritime University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof Dr. Huang Zan began his academic journey in the fields of robotics engineering and mechanical engineering, with a focus on advancing artificial intelligence, intelligent manufacturing, and materials science. His early endeavors laid the foundation for his contributions to both education and innovative research in these high-tech industries. His role as an Associate Professor in the School of Intelligent Manufacturing and his involvement in cutting-edge research shaped the trajectory of his academic career.

💼 Professional Endeavors

As the Deputy Dean of Guangzhou Maritime University, He plays a crucial leadership role, overseeing research projects, managing academic programs, and shaping the university's direction in technological advancements. He is also the Deputy Secretary-General of the International Industrial Technology Innovation Alliance for Artificial Intelligence and Digital Manufacturing. His involvement in these national and international collaborations reflects his commitment to bridging academia and industry.

🔬 Contributions and Research Focus

His research spans a variety of crucial fields including electrochemistry, robotics, artificial intelligence, and materials science. His work on lithium-sodium batteries and the integration of underwater robots into information-physical systems highlights his focus on innovative, sustainable technologies. He has presided over and contributed to numerous high-impact projects, earning him recognition as a leader in his fields.

🌍 Impact and Influence

With a citation index that includes eight highly cited papers and over 600 citations, His research has significantly influenced advancements in robotics and materials science. His contributions have been widely recognized in the scientific community, making him a key player in international collaborations and technology alliances. His impact extends beyond research as he actively contributes to professional societies, offering expertise as a project reviewer and judge for various competitions.

📚 Academic Cites

His research has earned notable academic recognition with five hot papers and three JCR 1 district publications. The total number of citations for his work exceeds 600, solidifying his position as a respected academic. Additionally, his role as a reviewer for top SCI journals such as ACS Nano and Journal of Clinical Nephrology has further amplified his academic presence.

🛠️ Technical Skills

He possesses specialized technical skills in robotics engineering, intelligent manufacturing, and electrochemical technologies. His expertise also extends to the design and development of novel materials, including electrode materials for batteries and advanced composite materials for various applications. His ability to combine theoretical knowledge with practical industry applications has made his research highly valuable.

👨‍🏫 Teaching Experience

Throughout his career, He has mentored and guided students, fostering innovation and critical thinking in the fields of robotics, materials science, and manufacturing. His students have excelled, winning 15 competitions, which highlights his effectiveness as an educator and a researcher.

🌱 Legacy and Future Contributions

His legacy is reflected in his extensive portfolio of patents, research papers, and the numerous projects he has led. As he continues to innovate and educate, his work will undoubtedly inspire future generations of engineers and researchers. His ongoing projects, particularly in the integration of AI into manufacturing and the development of sustainable energy solutions, promise to contribute significantly to both academic and industrial advancements in the years to come.

📖Notable Publications