Ziyodulla Yusupov | Renewable Energy | Editorial Board Member

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Prof. Dr. Ziyodulla Yusupov | Renewable Energy | Editorial Board Member

Professor | Karabuk University | Turkey

Prof. Dr. Ziyodulla Yusupov is a leading researcher in electrical power systems with a strong focus on optimization, intelligent control, microgrid operation, renewable energy integration, and electric vehicle–based energy solutions. His work centers on enhancing system reliability, improving energy efficiency, and advancing sustainable technologies for future power networks. He has played a key role in major international and national research initiatives, most notably the Uzbekistan–Belarus collaborative project (2024–2025) on decentralized electric vehicle charging systems, where he contributes to proposal development, intelligent scheduling strategies, system design, and annual research reporting. His earlier national projects span critical areas such as frequency-adjustable electric drives, resource-saving control modes, energy-efficient pump station operations for mining and agriculture, and the modeling and optimization of electric, hydraulic, and mechanical processes in pump systems. These projects highlight his long-standing expertise in energy management, dynamic system modeling, and the development of rational control principles that improve operational sustainability across industrial utilities. Prof. Yusupov’s research output includes widely cited publications on superconducting magnetic energy storage optimization, integrated photovoltaic systems for power system stability, renewable energy assessment, and the role of clean energy in reducing emissions. His work contributes to advancing the understanding of how renewable resources, storage technologies, and smart control systems can be harmonized to support resilient, low-carbon energy infrastructures. Through his extensive research contributions, collaborative projects, and sustained focus on innovation, he continues to influence the evolution of modern power systems and supports global efforts toward cleaner, smarter, and more efficient energy solutions.

Profile:  Scopus  |  ORCID  |  Google Scholar

Featured Publications

Khaleel, M., Yusupov, Z., Nassar, Y., El-Khozondar, H. J., Ahmed, A., & Alsharif, A. (2023). Technical challenges and optimization of superconducting magnetic energy storage in electrical power systems. e-Prime: Advances in Electrical Engineering, Electronics and Energy, 5, 100223.

Khaleel, M., Yusupov, Z., Ahmed, A., Alsharif, A., Nassar, Y., & El-Khozondar, H. (2023). Towards sustainable renewable energy. Applied Solar Energy, 59(4), 557–567.

Nassar, Y., El-Khozondar, H. J., Ghaboun, G., Khaleel, M., Yusupov, Z., … (2023). Solar and wind atlas for Libya. International Journal of Electrical Engineering and Sustainability, 27–43.

Khaleel, M., Yusupov, Z., Yasser, N., El-Khozondar, H., & Ahmed, A. A. (2023). An integrated PV farm to the unified power flow controller for electrical power system stability. International Journal of Electrical Engineering and Sustainability, 18–30.

Khaleel, M., Yusupov, Z., Alderoubi, N., Abdul_jabbar, R. L., Elmnifi, M., … (2024). Evolution of emissions: The role of clean energy in sustainable development. Challenges in Sustainability, 12(2), 122–135.

Zijun Yi | Perovskite Solar | Best Researcher Award

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Dr. Zijun Yi | Perovskite Solar | Best Researcher Award

Lecturer | Wuhan Textile University | China

Dr. Zijun Yi is a Lecturer in the School of Textile Science and Engineering at Wuhan Textile University, China, specializing in energy materials, perovskite solar cells, and functional textiles. She earned her Ph.D. in Materials Science from Huazhong University of Science and Technology in 2024, following her M.S. in New Energy Science and Engineering in 2020 and her B.S. in Energy and Power Engineering from Wuhan University of Science and Technology in 2017. Dr. Yi’s research focuses on the design and optimization of high-performance perovskite solar cells and the integration of energy materials into functional textile systems for advanced energy conversion and storage applications. Her publications, including articles in leading journals such as the Chemical Engineering Journal, demonstrate strong innovation in replacing traditional dopants and developing ambient-air fabrication techniques for solar cells. With more than 633 citations across 20 scientific documents and an h-index of 13, Dr. Yi’s work reflects a growing impact in the renewable energy and materials science communities. She combines a deep understanding of material chemistry with applied engineering approaches, contributing to the advancement of sustainable energy technologies and next-generation functional materials. Her academic background and emerging research achievements establish her as a promising young scientist dedicated to the intersection of renewable energy and textile engineering. Dr. Yi’s dedication to innovation and interdisciplinary research continues to drive her contributions to the development of efficient, eco-friendly materials for clean energy applications.

Profile:  Scopus  |  ORCID

Featured Publications

Yi, Z., et al. (2025). A novel dopant replacing LiTFSI and TBP in Spiro-OMeTAD for high-performance perovskite solar cells. Chemical Engineering Journal.

Yi, Z., et al. (2024). Recent advancements in ambient-air fabrication of perovskite solar cells. Chemical Engineering Journal, Open Access Review.

Monica Alvarez Manso | Energy | Best Researcher Award

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Mrs. Monica Alvarez Manso | Energy | Best Researcher Award

Mrs. Monica Alvarez Manso | Universidad De Leon | Spain

Mónica Alvarez Manso is a PhD candidate at the University of León and a Technical Mining Engineer with a Master’s in Occupational Risk Prevention. She serves as Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates of Madrid and Castilla y León, where she leads initiatives in energy, mining, and advanced materials. Her expertise spans hydrogen technologies, bioenergy, renewable systems, and sustainable water resource management. With experience in large-scale international energy projects, innovative software development, and leadership roles, she combines technical excellence with a strong commitment to sustainable innovation and climate change mitigation.

Publication Profile

Google Scholar

Academic Background

Mónica Alvarez Manso is a highly accomplished professional with a strong academic and technical foundation. She is a PhD candidate at the University of León, where her research focuses on sustainable energy and resource management. She earned her degree as a Technical Mining Engineer from the School of Mining Engineering in León and later completed a Master’s in Occupational Risk Prevention at UNED. Her education has been complemented by extensive professional experience in hydrogen technologies, bioenergy, renewable systems, and sustainable water management, enabling her to integrate advanced knowledge with practical innovation in the fields of energy and sustainability.

Professional Experience

Mónica Alvarez Manso has built a distinguished career that combines technical expertise, research, and leadership in the fields of energy, mining, and sustainability. She has directed and coordinated complex projects involving hydrogen technologies, bioenergy, renewable energy integration, and sustainable water resource management. Her professional work includes the design and implementation of innovative systems for green hydrogen and biomethane production, large-scale energy infrastructure, and industrial energy efficiency. As Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates, she plays a key role in advancing innovation, professional development, and technological progress in the energy sector.

Awards and Honors

Mónica Alvarez Manso has earned recognition for her outstanding contributions to energy engineering, sustainability, and applied research. Her innovative work in hydrogen technologies, bioenergy, and renewable systems has positioned her as a respected leader in advancing clean energy solutions. She has been acknowledged for her role in developing pioneering projects that address climate change mitigation and industrial sustainability. Her leadership as Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates highlights her commitment to professional excellence. Through her academic, technical, and institutional achievements, she continues to gain distinction and honors in her field.

Research Focus

Mónica Alvarez Manso centers her research on sustainable energy systems, with particular emphasis on hydrogen technologies, bioenergy, and renewable integration. Her work explores the complete cycle of green hydrogen production, storage, and transport, as well as innovative methods for biogas upgrading and digestate valorization to support circular economy principles. She also investigates advanced energy systems, including smart grids, energy storage, and industrial efficiency. Another significant aspect of her research involves sustainable water resource management and climate change mitigation strategies, where she develops practical and innovative solutions that bridge academic research with real-world energy and environmental challenges.

Publication Top Notes

Classification Framework for Hydrological Resources for Sustainable Hydrogen Production with a Predictive Algorithm for Optimization

Year: 2025

Feasibility study of an electrical power plant combined with a thermolysis process

Year: 2002

Conclusion

Mónica Alvarez Manso is an accomplished researcher whose expertise combines technical depth with leadership in hydrogen technologies, bioenergy, renewable systems, and sustainable water management. She has contributed to international infrastructure projects and advanced research in green hydrogen and biomethane production, while also serving as Vice-Dean of the Official College of Technical Mining Engineers. Her innovations, such as HYDROGREENSIM and registered inventions, showcase creativity and impact. With stronger academic publications, her profile reflects an outstanding candidate for the Best Researcher Award.

Jacinta Okwako | Renewable Energy | Best Researcher Award

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Ms. Jacinta Okwako | Renewable Energy | Best Researcher Award

Ms. Jacinta Okwako at University of Nairobi, Kenya

Jacinta Okwako 🎓 is an innovative researcher in renewable energy, specializing in solar-powered smart window technologies 🌞🪟. With a PhD in Physics from the University of Nairobi and a Master’s in Energy Policy from PAUWES 🌍, she blends science, sustainability, and education seamlessly. Her work focuses on smart infrastructure, energy efficiency, and advanced material development ⚡🔬. Jacinta has taught physics at multiple institutions and thrives in multicultural, interdisciplinary research environments 🤝🌐. She’s presented internationally, won poster awards 🏅, and is passionate about solving global energy challenges for a greener future 🌱🌎.

Publication Profile

Orcid

Academic Background

Jacinta Okwako holds a PhD in Physics from the University of Nairobi (2020–present) , where she focuses on the fabrication and characterization of doped tungsten oxide nanoparticles for photoelectrochromic applications . She earned a Master’s in Energy Policy from PAUWES, Algeria (2016–2018) 🌍, researching energy efficiency in Kenyan industries. Additionally, she holds a Master’s in Physics (2013–2019) from the University of Nairobi, specializing in Cu₂ZnSnS₄ thin film characterization . Jacinta also completed a Bachelor of Education in Physics and Mathematics (2008–2012) 🎓 and scored an ‘A’ grade at Moi Forces Academy in 2006 🏅.

Professional Experience

Jacinta Okwako has built a solid career in education and research, currently serving as a Physics Lecturer at the Kenya Institute of Survey and Mapping since 2020. Her passion for teaching began at Moi Forces Academy, Mombasa (2012–2013) 🎓, and continued through Kianda School in Nairobi (2014–2015) and Windle Trust Kenya in Dadaab Refugee Camp (2015–2016) 📚, where she taught physics and mathematics. Her roles reflect dedication to shaping future scientists and addressing educational needs in both urban and underserved communities 💡🌱.

Awards and Honors

Jacinta Okwako has earned several prestigious certifications that showcase her commitment to continuous learning and innovation in energy and education. She attended the SE4A Summer School in Cameroon (2017), earning 3rd place for best poster presentation 🏅. She also participated in a Renewable Energy Summer School in Cologne, Germany , and the Solar Energy Materials Conference in Tunisia . Beyond energy, she completed Lay Counselling Training with UKaid in Garissa 🤝 and an Entrepreneurship Workshop for Scientists and Engineers in Nairobi (2014) 🧪, highlighting her multidisciplinary engagement.

Research Focus

Jacinta Okwako is dedicated to advancing cutting-edge research in renewable energy technologies, with a special focus on solar-powered smart window systems. Her goal is to contribute to sustainable, energy-efficient building solutions that align with global environmental priorities. With a strong interdisciplinary background in physics, energy policy, and education, she strives to drive innovation, support evidence-based policymaking, and engage in collaborative projects that tackle critical energy and environmental challenges 🌐🔥. Her work aims to bridge scientific discovery with real-world impact for a more sustainable and resilient future💡.

Publication Top Notes

Conclusion

Dr. Jacinta Okwako stands out as an exceptional candidate for the “Best Researcher Award” due to her impactful research in renewable energy, particularly in the development of photoelectrochromic smart window technologies that advance sustainable building solutions. Her academic achievements, including a PhD in Physics, multiple peer-reviewed publications, and collaborations with international institutions, reflect both scientific rigor and global relevance. Coupled with her interdisciplinary background in physics, energy policy, and education, she demonstrates a rare blend of innovation, technical depth, and societal impact. Her teaching experience, outreach in refugee settings, and recognition in international forums further highlight her as a well-rounded and inspiring researcher. 🌍🔬🏆