Assist. Prof. Dr. Hamouda Hamed | Polymer Chemistry | Best Researcher Award
Assistant Professor | University of Kordofan | Sudan
Dr. Hamouda Adam Hamouda Hamed is an accomplished chemist and academician specializing in polymer chemistry, energy storage, and electrochemical materials. He currently serves as an Assistant Professor in the Faculty of Science at the University of Kordofan, Sudan, where he actively contributes to both teaching and research in advanced chemical sciences. Dr. Hamed holds a PhD in Polymer Chemistry and Physics from Northwest Normal University, China, a master’s degree in Chemistry from the University of Kordofan, and a bachelor’s degree in Chemistry from Sudan University of Science and Technology. His research interests span polymer synthesis, energy storage and conversion, supercapacitors, batteries, electrochemistry, biomass conversion, carbon nanomaterials, and advanced functional materials. His work focuses on developing sustainable materials for energy devices, particularly emphasizing high-performance electrode materials and efficient electrochemical systems. In addition to his research, Dr. Hamed has extensive teaching experience at both undergraduate and postgraduate levels, where he has guided students in laboratory experiments, project supervision, and academic research. He is deeply involved in departmental and university-level academic activities, including curriculum development, examination management, and committee participation. Driven by a passion for innovation and scientific contribution, Dr. Hamed has presented his work at various academic conferences and seminars, showcasing his commitment to advancing polymer-based energy materials for global sustainability. His academic journey reflects a blend of dedication, leadership, and a strong pursuit of excellence in chemical sciences, aiming to bridge the gap between fundamental research and practical energy solutions through innovative material design and interdisciplinary collaboration.
Featured Publications:
Hamouda, H. A., Cui, S., Dai, X., Xiao, L., Xie, X., Peng, H., & Ma, G. (2021). Synthesis of porous carbon material based on biomass derived from Hibiscus sabdariffa fruits as active electrodes for high-performance symmetric supercapacitors. RSC Advances, 11(1), 354–363.
Gao, X., Hu, Q., Sun, K., Peng, H., Xie, X., Hamouda, H. A., & Ma, G. (2021). A novel all-in-one integrated flexible supercapacitor based on self-healing hydrogel electrolyte. Journal of Alloys and Compounds, 888, 161554.
Lei, H., Zhou, J., Zhao, R., Peng, H., Xu, Y., Wang, F., Hamouda, H. A., Zhang, W., … (2020). Design and assembly of a novel asymmetric supercapacitor based on all-metal selenides electrodes. Electrochimica Acta, 363, 137206.
Cui, S., Hu, Q., Sun, K., Wang, X., Wang, F., Hamouda, H. A., Peng, H., & Ma, G. (2022). Nickel–cobalt-layered double hydroxide nanosheets supported on NiMoO₄ nanorods with enhanced stability for asymmetric supercapacitors. ACS Applied Nano Materials, 5(5), 6181–6191.
Hamouda, H. A., Abdu, H. I., Hu, Q., Abubaker, M. A., Lei, H., Cui, S., Alduma, A. I., … (2022). Three-dimensional nanoporous activated carbon electrode derived from acacia wood for high-performance supercapacitor. Frontiers in Chemistry, 10, 1024047.
Hu, Q., Shi, X., Sun, K., Cui, S., Hamouda, H. A., Zhang, W., Peng, H., & Ma, G. (2022). A super-stretchable and thermally stable hydrogel electrolyte for high-performance supercapacitor with wide operation temperature. Journal of Alloys and Compounds, 909, 164646.