Abraham Marquez | Power Electronics | Best Researcher Award

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Dr. Abraham Marquez | Power Electronics | Best Researcher Award

Researcher at Universidad de Sevilla | Spain

Dr. Abraham Márquez Alcaide is a distinguished researcher in electronic engineering, renowned for his pioneering contributions to power electronics, advanced modulation strategies, and predictive control systems. Currently based at the University of Seville, he has played a vital role in the TIC-109 research group, advancing modular power converter technologies with a focus on improving system reliability, efficiency, and lifetime through smart thermal and predictive maintenance control. His prolific academic output includes over ninety peer-reviewed publications in leading high-impact journals and international conferences, several of which are recognized as highly cited by the Web of Science. Dr. Márquez has collaborated globally with eminent scholars and research institutions, including the Harbin Institute of Technology in China and Universidad Técnica Federico Santa María in Chile, fostering innovation in renewable energy integration, electric vehicle charging systems, and industrial automation. A multiple recipient of the IEEE Industrial Electronics Best Paper Award, he is widely respected for his ability to bridge theoretical advancements and industrial applications. Beyond research, he is actively engaged in academic leadership, mentoring numerous postgraduate students, organizing international conference sessions, and contributing to editorial and peer-review processes in reputed journals. His expertise spans modulation techniques, model predictive control, and active thermal management in high-reliability power electronic systems. With his visionary approach and international recognition, Dr. Márquez stands out as a leading figure shaping the future of smart, efficient, and sustainable power conversion technologies.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Vazquez, S., Leon, J. I., Franquelo, L. G., Rodriguez, J., Young, H. A., & Marquez, A., et al. (2014). Model predictive control: A review of its applications in power electronics.

Liu, J., Vazquez, S., Wu, L., Marquez, A., Gao, H., & Franquelo, L. G. (2016). Extended state observer-based sliding-mode control for three-phase power converters.

Vazquez, S., Marquez, A., Aguilera, R., Quevedo, D., Leon, J. I., & Franquelo, L. G. (2014). Predictive optimal switching sequence direct power control for grid-connected power converters.

Liu, J., Shen, X., Alcaide, A. M., Yin, Y., Leon, J. I., Vazquez, S., Wu, L., et al. (2021). Sliding mode control of grid-connected neutral-point-clamped converters via high-gain observer.

Zhang, J., Tian, J., Alcaide, A. M., Leon, J. I., Vazquez, S., Franquelo, L. G., Luo, H., et al. (2023). Lifetime extension approach based on the Levenberg–Marquardt neural network and power routing of DC–DC converters.

Demsew Mitiku Teferra | Power System (Distribution Network) | Best Researcher Award

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Dr. Demsew Mitiku Teferra | Power System (Distribution Network) | Best Researcher Award

Assistant Professor at Addis Ababa Science and Technology University, Ethiopia

Demsew Mitiku Teferra is an innovative Electrical Engineer and academic whose professional and research trajectory is rooted in the advancement of sustainable power systems and renewable energy integration. With over a decade of experience in academia, engineering consultancy, and project supervision, he has positioned himself as a significant contributor to Ethiopia’s energy sector transformation. His academic journey began with a Bachelor of Science in Electrical Engineering from Hawassa University in 2010, followed by a Master of Science in Electrical Power Engineering from Addis Ababa University in 2014. He culminated his formal education in 2024 with a PhD in Electrical Engineering (Power Systems) from the Pan African University Institute for Basic Sciences, Technology and Innovation (PAUSTI), where he conducted advanced research on intelligent micro-grids, distributed energy storage, and smart transmission technologies.

Profile

Scopus

Education

Dr. Teferra’s education reflects a strong interdisciplinary foundation that merges theoretical insight with applied technical competence. His undergraduate and graduate studies covered a broad spectrum of electrical engineering topics, including power systems, digital signal processing, renewable technologies, and control systems. Supplementing this foundation, he acquired a professional certificate in Solar Energy Application and Management from the Gansu Natural Energy Institute/UNIDO-ISEC in China, which strengthened his expertise in solar and wind technologies, as well as energy-saving systems. This educational path prepared him for addressing real-world energy challenges with technical rigor and sustainability-focused solutions.

Experience

Professionally, Demsew Mitiku Teferra has held impactful roles in both academia and industry. He began his career as an Electrical Engineer in the Ethiopian construction sector, contributing to system design, CAD modeling, installation, and site supervision for building contractors. In 2010, he transitioned into academia as a Lecturer at Debre Markos University, where he delivered courses and conducted research in electrical engineering. Since 2016, he has been serving as an Assistant Professor at Addis Ababa Science and Technology University (AASTU), where he teaches undergraduate and postgraduate courses, supervises thesis projects, and leads applied research on renewable integration, distributed generation, and smart grids. His academic responsibilities extend to consultancy for government and industry, curriculum development, and the facilitation of capacity-building workshops in energy technologies.

Research

Dr. Teferra’s research interests lie in the intersection of smart power distribution systems, renewable energy integration, battery storage, and FACTS (Flexible AC Transmission Systems). His PhD research explored the operational enhancement of power distribution networks using intelligent micro-grid models, focusing on hybrid energy systems that improve power stability, reliability, and efficiency. He is particularly interested in distributed energy resource (DER) management, energy access solutions for rural electrification, and the resilience of power systems under variable renewable generation.

Awards

In recognition of his contributions to the academic and professional electrical engineering community, Dr. Teferra has been nominated for various academic honors and is a strong candidate for awards promoting innovation in sustainable energy systems. His blend of research, teaching, consultancy, and practical fieldwork underlines his eligibility for such accolades. His commitment to improving energy access and grid resilience aligns with global goals for clean and sustainable energy.

Publications

Dr. Teferra has authored several peer-reviewed publications that reflect his expertise and engagement with emerging challenges in power systems. Notable works include:

  1. “Optimal Sizing of Battery Energy Storage for Grid Reliability Improvement” (2024), published in Energy Reports – Cited by 11 articles.

  2. “Intelligent Microgrid Operation with FACTS Devices: A Simulation Study” (2023), published in Electric Power Systems Research – Cited by 9 articles.

  3. “Integration of Renewable Energy in Urban Distribution Networks” (2022), published in Renewable and Sustainable Energy Reviews – Cited by 15 articles.

  4. “Demand Response Strategy for Distributed Energy Resources” (2021), published in Journal of Electrical Systems and Information Technology – Cited by 6 articles.

  5. “Assessment of Power Quality in Ethiopian Distribution Systems” (2020), published in International Journal of Electrical Power & Energy Systems – Cited by 7 articles.

  6. “Solar PV System Deployment in Sub-Saharan Africa: A Technical Review” (2019), published in Energy Policy – Cited by 13 articles.

  7. “Application of Advanced Control in Microgrids with Renewable Energy Sources” (2018), published in Journal of Cleaner Production – Cited by 10 articles.

Conclusion

In conclusion, Dr. Demsew Mitiku Teferra exemplifies the role of a scholar-practitioner committed to fostering technological advancement and sustainable development through power systems engineering. His extensive academic background, combined with professional and research excellence, positions him as a valuable asset to the global engineering community. As Ethiopia and the wider African continent pursue greener, smarter energy solutions, Dr. Teferra’s work serves as a model for how local innovation can drive global impact.

Jun-Woo Park | Next Generation Battery | Best Researcher Award

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Dr. Jun-Woo Park | Next Generation Battery | Best Researcher Award

Principal Researcher at Korea Electrotechnology Research Institute, South Korea

Dr. Jun-Woo Park is a distinguished researcher and academician specializing in battery technologies, particularly in the development of next-generation energy storage solutions. With a career spanning over a decade in electro-functional materials engineering, he has made significant contributions to solid-state battery research, lithium-sulfur battery advancements, and ionic liquid electrolytes. His extensive research portfolio includes high-impact publications, numerous patents, and several prestigious awards, highlighting his influence in the field of battery science. Dr. Park’s work focuses on developing innovative and sustainable energy storage technologies that contribute to the advancement of eco-friendly mobility solutions.

Profile

Scopus

Education

Dr. Park pursued his higher education at Yokohama National University, Japan, where he obtained his Ph.D. in Chemical Engineering in 2013 under the mentorship of Prof. Masayoshi Watanabe. His doctoral research centered on ionic liquid electrolytes for lithium-based batteries, leading to fundamental insights into electrochemical reactions and battery performance. Prior to his Ph.D., he earned a Master’s degree from the same institution in 2010, where he conducted research on electrochemical compatibility and energy storage materials. His educational foundation laid a strong platform for his later groundbreaking work in advanced battery technologies.

Experience

Dr. Park’s professional journey commenced at the Korea Electrotechnology Research Institute (KERI) in 2013, where he has been serving as a Principal Researcher in the Battery Research Division. His role at KERI has been instrumental in advancing solid-state battery technologies, contributing to the development of high-performance secondary batteries. Additionally, he has been an Associate Professor at the University of Science and Technology (UST) in Daejeon, Korea, since 2022, and he was promoted to a full Professor in 2025. Dr. Park has also been actively involved in policy and technological evaluations as a committee member for various South Korean governmental agencies, including the Ministry of Trade, Industry, and Energy and the Ministry of SMEs and Startups. Furthermore, his editorial role at the Korea Battery Society (KOBS) underscores his commitment to disseminating cutting-edge research in the field.

Research Interests

Dr. Park’s research interests lie at the intersection of materials science and electrochemical engineering, focusing primarily on next-generation battery technologies. His work involves the synthesis and optimization of solid-state electrolytes, lithium-sulfur batteries, and high-energy-density flexible batteries. He has been a pioneer in developing sulfide-based all-solid-state batteries and has contributed to improving energy efficiency and safety in battery applications. His studies also explore novel methods for electrolyte synthesis, aiming for cost-effective and scalable production of battery components. Through his research, Dr. Park seeks to bridge the gap between fundamental electrochemistry and real-world battery applications, with a particular emphasis on sustainable and high-performance energy storage solutions.

Awards and Honors

Dr. Park’s contributions have been widely recognized through numerous prestigious awards. Notably, he received the KERI Grand Award in 2024 for his outstanding research on all-solid-state batteries, including publications in top-tier journals. He was honored with the Minister of Trade, Industry, and Energy Award in 2023 for his role in planning the lithium-sulfur battery sector for the national high-performance secondary battery project. Additionally, he received the Minister of Science and ICT Award for developing cost-effective mass-production technology for sulfide-based solid electrolytes. His accolades also include commendations for advancing the domestic battery industry, developing flexible high-energy-density batteries, and significantly contributing to secondary battery energy efficiency improvements.

Publications

Dr. Park has authored numerous high-impact publications in the field of battery research. Below are some selected works:

Park, J-W., et al. (2013). “Li-S Batteries with Ionic Liquid Electrolytes.” The Journal of Physical Chemistry C. [Cited by 200+ articles]

Park, J-W., et al. (2011). “Limiting current density in bis(trifluoromethylsulfonyl)amide-based ionic liquid for lithium batteries.” Journal of Power Sources. [Cited by 350+ articles]

Park, J-W., et al. (2018). “Effect of solvated ionic liquids on the ion-conducting property of composite membranes for lithium-ion batteries.” Research on Chemical Intermediates. [Cited by 180+ articles]

Park, J-W., et al. (2020). “Facile fabrication of solution-processed solid electrolytes for high-energy-density all-solid-state batteries by enhanced interfacial contact.” Scientific Reports. [Cited by 220+ articles]

Park, J-W., et al. (2021). “A novel strategy to overcome the hurdle for commercial all-solid-state batteries via low-cost synthesis of sulfide solid electrolytes.” Small Methods. [Cited by 280+ articles]

Park, J-W., et al. (2023). “Engineering green and sustainable solvents for scalable wet synthesis of sulfide electrolytes in high-energy-density all-solid-state batteries.” Green Chemistry. [Cited by 150+ articles]

Park, J-W., et al. (2024). “Size-controlled wet-chemical synthesis of sulfide superionic conductors for high-performance all-solid-state batteries.” Energy Storage Materials. [Cited by 200+ articles]

Conclusion

Dr. Jun-Woo Park’s career is a testament to his dedication to advancing battery technology through innovative research and practical applications. His contributions to lithium-sulfur and solid-state battery advancements have not only earned him widespread recognition but have also significantly influenced the future of energy storage solutions. Through his academic, industrial, and policy-driven engagements, Dr. Park continues to shape the landscape of next-generation batteries, driving progress toward more efficient, safe, and sustainable energy storage technologies.