Prof. Dr. Adel Mohamed | Materials Engineering | Research Excellence Award

Prof. Dr. Adel Mohamed | Suez University | Egypt

Prof. Adel Mohamed Amer Mohamed is a leading scholar in metallurgical and materials engineering, widely recognized for his influential research, academic leadership, and contributions to scientific advancement. His work spans advanced materials, electronic materials, metal matrix composites, theoretical modeling, electrocatalysis, and energy-storage systems, with a strong emphasis on modern materials innovation. He has produced an extensive research portfolio that includes high-impact journal publications, conference contributions, book chapters, and authored books reflecting both scientific depth and interdisciplinary relevance. Prof. Adel is consistently listed among the Stanford Top 2% Scientists, highlighting his global research visibility and strong citation indicators. His achievements extend beyond research into curriculum development, academic program enhancement, and quality assurance within higher education. He has played a central role in improving undergraduate and postgraduate academic structures while fostering a culture of scientific excellence. His leadership includes overseeing laboratory development, guiding student learning environments, and supporting scientific training initiatives. He has significantly contributed to strengthening industry–academia cooperation through collaborative projects, training programs, and strategic partnerships. Prof. Adel also actively participates in national scientific committees, reflecting his expertise in advanced materials and his role in shaping research directions. His editorial work and service as a reviewer for numerous journals demonstrate his commitment to maintaining high scientific standards. Dedicated to mentoring, he has supervised multiple postgraduate theses, helping shape the next generation of materials researchers. His research projects span diverse areas of application, including sustainable technologies, electrochemical systems, structural materials, and nanostructured composites. Through his continuous contributions to scientific research, academic development, and institutional growth, Prof. Adel Mohamed Amer Mohamed has established himself as a prominent figure in the field of materials engineering and a driving force behind the advancement of research and education.

Profiles: Scopus | Orcid

Featured Publications

Hsu, C.-Y., Ali, A. B. M., Jamal, Z. H., Mudhafar, M., Alsailawi, H. A., Abduvalieva, D., Mohamed, A. M. A., Adil, S. K., Alkahtani, H. M., & Mahariq, I. (2025). Transition metal-functionalized hexagonal bipyramidal boron clusters as high-performance electrocatalysts for hydrogen evolution reaction: A DFT study. International Journal of Hydrogen Energy.

Matli, P. R., Manohar, G., Abdelatty, R., Shakoor, R. A., Azeem, A., Lingala, S. S. R., Kotalo, R. G., & Mohamed, A. M. A. (2024). Characterization of microstructural and mechanical properties of hybrid Al/SiC/Al₂O₃ nanocomposites. Emergent Materials.

Moussa, M. E., Salem, M. M. M., Hamid, M. A., Gomaa, M. H., Abd-Elwahed, A., Ghayad, I. M., & Mohamed, A. A. (2024). Mechanical integrity and in vitro degradation behavior of Mg–Zn–Ca biodegradable alloy prepared by different casting technologies. International Journal of Metalcasting.

Mikky, Y. A., Bhran, A. A., El-Araby, R. Y., Mohamed, A. M. A., Gadallah, A. G., & Shoaib, A. M. (2024). Optimization of biodiesel–nanoparticle blends for enhanced diesel engine performance and emission reduction. Processes, 12(11), Article 2471.

Mohamed, A. M. A., Ibrahim, M. F., Zedan, Y., Samuel, E., Samuel, A. M., & Samuel, F. H. (2023). A study on the factors enhancing the high-temperature strength of B319.2-type alloys. International Journal of Metalcasting.