Director of environmental physics and hydrogen technologies lab, University of Patras & AE4RIA Sustainability sector, Greece
Assoc. Prof. Sofoklis Makridis is a distinguished academic and researcher with expertise in hydrogen technologies, energy systems, and environmental engineering. He holds a Ph.D. in Materials Science and Engineering and has an extensive background in both academic and industrial research. As the Director of the InnoEnergy Lab at the University of Patras, he leads cutting-edge research in hydrogen storage, CO2 capture, and nanocomposite materials. With his multidisciplinary approach, he has contributed significantly to advancing green technologies and sustainable energy solutions. His work extends across collaborations with top universities and research institutions globally, and he actively mentors future leaders in the field.
Profile
Education
Assoc. Prof. Makridis’ academic journey began with a B.Sc. in Physics from the University of Ioannina, Greece. His passion for materials science led him to earn both an M.Sc. and Ph.D. in Materials Science and Engineering from Aristotle University of Thessaloniki. To further refine his skills, he pursued an MBA in Entrepreneurship and Innovation from the Open University, UK, where he expanded his understanding of the intersection of technology and business.
Experience
Assoc. Prof. Makridis’ career spans both academia and industry, marked by impactful collaborations in hydrogen energy systems. He serves as an Associate Professor in the Department of Environmental Engineering at the University of Patras, where he has taught and supervised numerous students in energy and environmental engineering programs. In addition, he has held visiting professor roles at leading universities such as the University of Cranfield, University of Bradford, KU Leuven, and the University of Loughborough. He has played a pivotal role in various European and international projects, including hydrogen storage systems, CO2 capture, and energy efficiency technologies, collaborating with organizations such as LBNL and the European Commission.
Research Interests
Assoc. Prof. Makridis’ research interests are primarily focused on hydrogen storage, fuel cells, and sustainable energy solutions. His work on metal hydride hydrogen compressors, CO2 capture, and CFD modeling in hydrogen fuel cell systems has led to significant breakthroughs. He is particularly passionate about advancing nanocomposite materials for high-temperature permanent magnets and developing zero-carbon technologies for green buildings and smart cities. His research integrates theoretical, experimental, and computational methods to optimize energy systems, supporting a transition to a more sustainable future.
Publication Top Notes
Makridis, S., et al. “Efficient hydrogen storage in Mg-nanocomposites and novel nanochemistry manipulation.” International Journal of Hydrogen Energy, 2020.
Makridis, S., et al. “CFD modeling of hydrogen-fuel cell systems for optimization.” Journal of Power Sources, 2018.
Makridis, S., et al. “Environmental approaches to smart city energy solutions.” Renewable and Sustainable Energy Reviews, 2017.
Makridis, S., et al. “Nanocomposites for high-temperature permanent magnets.” Journal of Materials Science, 2016.
Makridis, S., et al. “Hydrogen storage in metal hydrides: Progress and challenges.” Materials Science and Engineering Reports, 2015.
His work has garnered significant attention, as evidenced by its citation in numerous academic and industry papers, further establishing him as a leader in his field.
Conclusion
Assoc. Prof. Sofoklis Makridis is a prominent academician and researcher with a distinguished career focused on advancing hydrogen technologies and sustainable energy solutions. His contributions to energy systems and his leadership in interdisciplinary research have positioned him as a key figure in the transition towards a more sustainable and green future. Through his work in both academia and industry, he has mentored future leaders, fostered innovative research, and contributed to significant technological advancements in energy storage and environmental systems. His dedication to education, research, and innovation makes him an ideal candidate for any award nomination in the field of energy and sustainability.