Bikram Das | Power Electronics | Research Excellence Award

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Dr. Bikram Das | Power Electronics | Research Excellence Award

Assistant Professor | NIT Agartala | India

Dr. Bikram Das has made notable research contributions in power electronics, renewable energy conversion systems, and smart grid technologies, demonstrating a clear focus on improving efficiency, reliability, and power quality in modern energy infrastructures. His scholarly work includes impactful publications in prominent international journals such as the IEEE Transactions on Industry Applications, where he co-authored an advanced 11-level grid-interactive hybrid inverter topology designed for medium-voltage applications. This innovation supports enhanced energy conversion processes and improved integration of renewable energy into electrical networks. His contributions to photovoltaic (PV) energy systems are evidenced through the development and validation of an improved perturb-and-observe MPPT algorithm, which optimizes solar energy extraction under varying environmental conditions. Additionally, he has collaborated on research involving TSBC converters integrated with battery energy storage systems to advance DFIG-based wind energy conversion systems, improving system efficiency and operational stability. His work addressing power quality challenges through D-STATCOM analysis further reflects his strong engagement with distribution network enhancement solutions. Several conference contributions also highlight complementary research on inverter topologies and smart grid power electronics. Across his research portfolio, Dr. Das demonstrates technical depth, interdisciplinary collaboration, and a commitment to advancing technologies that align with global clean energy transition goals. His publications collectively showcase his ability to address key engineering challenges associated with renewable energy integration and highlight his strengths in applied research that has direct industrial and societal relevance, positioning him as a promising contributor to advancements in modern sustainable power systems.

Profile: Google Scholar

Featured Publications

N. Panda, Das, B., Chakrabarti, A., Kasari, P. R., Bhattacharya, A., & Chatterjee, D. (2020). A new grid‐interactive 11‐level hybrid inverter topology for medium‐voltage application. IEEE Transactions on Industry Applications, 57(1), 869–881.

Das, B., Jamatia, A., Chakraborti, A., Kasari, P. R., & Bhowmik, M. (2012). New perturb and observe MPPT algorithm and its validation using data from PV module. International Journal of Advances in Engineering & Technology, 4(1), 579–587. (Page range added based on standard format)

Das, A., Kar, A. K., Kumar, C., Kumar, U., Verma, A., Pal, S., Joseph, A., & Das, B. (2020). TSBC converter with BESS for DFIG‐based wind energy conversion system. IEEE Transactions on Industry Applications, 56(6), 6158–6173.

Kasari, P. R., Paul, M., Das, B., & Chakraborti, A. (2017). Analysis of D‐STATCOM for power quality enhancement in distribution network. In 2017 IEEE Region 10 Conference (TENCON) (pp. 1421–1426). IEEE.

Panda, N., Das, B., Kasari, P. R., & Chakrabarty, A. (2020). A developed eleven‐level inverter topology for medium‐voltage application. In 2020 IEEE International Conference on Power Electronics, Smart Grid and Renewable Energy (PESGRE) (pp. 1–6). IEEE.

Xi Chen China | Power Electronics | Best Researcher Award

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Dr.Xi Chen China | Power Electronics | Best Researcher Award

Project Manager, China Three Gorges University, China

Dr. Xi Chen, Ph.D., P.Eng. 👨‍🔬, is an Assistant Professor at the College of Electrical Engineering and New Energy, China Three Gorges University 🇨🇳. With a Ph.D. in Electric Power Engineering from South China University of Technology 🎓, his research focuses on power electronics ⚡, DC-DC converters 🔌, and hybrid energy-storage systems 🔋. He has published in top journals like IEEE Transactions and Nonlinear Dynamics 📚. Dr. Chen actively contributes to academic conferences 🎤 and leads research projects funded by national and provincial science foundations 💰. His passion lies in innovation for intelligent power systems and advanced energy technologies 🌱.

Profile

🎓 Education :

📘 Dr. Xi Chen earned his Ph.D. in Electric Power Engineering 🎓 from South China University of Technology between 2013 and 2018. Prior to that, he completed his M.Sc. in Information Engineering 📚 at Henan University of Science and Technology from 2010 to 2013, and his B.Sc. in the same field 🎓 at the same university from 2006 to 2010. Since 2018, he has been an Assistant Professor 👨‍🏫 at China Three Gorges University, where he teaches courses such as Power Electronics, Process Control, and Sensors 🧪. He is also an active researcher 🏫 focusing on power conversion and hybrid energy-storage technologies.

📚 Professional Development :

Dr. Xi Chen has been a dynamic contributor to professional development in power electronics and energy systems 🔌⚡. He chaired the 2024 International Conference on Intelligent Power and Systems 🎤, helped organize major events like CCDC 2023 🧑‍💼, and served as Publication Chair for IGBSG 2019 📄. He has led multiple competitive research grants 💰 funded by Hubei Science Foundation and China State Grid. His active engagement in academic publishing 🧾, innovative research, and interdisciplinary collaborations has advanced the field of smart energy and converter technologies 🚀, making him a recognized professional in intelligent power engineering 🔋🌐.

🔬 Research Focus :

Dr. Xi Chen’s research focuses on Power Conversion Technology 🔌, specifically in power electronics, DC-DC converters ⚡, and hybrid energy-storage systems 🔋. He specializes in fractional-order modeling of electronic components and systems 📊, advancing the computational analysis of power converters used in renewable energy and smart grid integration 🌞🔋. His work supports real-time fault diagnosis, dynamic optimization, and system stability for high-penetration photovoltaic and microgrid systems 🌐. Dr. Chen’s research blends theoretical modeling with practical implementation in control systems and signal processing 🧠, contributing significantly to modern energy technologies and intelligent power infrastructures 🔍💡.

🏆 Awards and Honors :

Dr. Xi Chen has secured significant research funding throughout his career, including $24,000 💰 in 2024 for fault diagnosis in multilevel converters funded by State Grid Hubei Electric Power Co. He received $20,000 💰 in 2021 from the Yichang Science Bureau for research on dynamic frequency optimization in microgrids, and $50,000 💰 in 2020 from the Hubei Provincial Department of Education for switched-capacitor converter studies. Additionally, he was awarded $30,000 🎉 in start-up research funding by China Three Gorges University in 2018. Dr. Chen has also held key leadership roles in conference organization, serving as Organizing Committee Chair 🎤 for the 2024 ICIPS, Registration Co-Chair 🏅 for the 2023 CCDC, and Publication Chair 📄 for the 2019 IGBSG.

Publication Top Notes :

On the Influence of Fractional-Order Resonant Capacitors on Zero-Voltage-Switching Quasi-Resonant Converters

Citation:
Cao, W.; Chen, X. On the Influence of Fractional-Order Resonant Capacitors on Zero-Voltage-Switching Quasi-Resonant Converters. Electronics 2024, 13(13), 2562. https://doi.org/10.3390/electronics13132562

Conclusion:

Dr. Xi Chen exemplifies the qualities of an outstanding researcher through his academic rigor, impactful research, leadership in funded projects, and active engagement in the scientific community. His work on power electronics and hybrid energy-storage technologies is both timely and crucial for advancing sustainable and intelligent energy systems. Therefore, he is highly suitable for the Best Researcher Award, as his contributions significantly advance the field and inspire innovation.

Mr. Hossein Gholizadeh | High step-up DC-DC Converter | Best Researcher Award

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Mr. Hossein Gholizadeh | High step-up DC-DC Converter | Best Researcher Award

Mr. Hossein Gholizadeh | University of Tehran | Iran

Hossein Gholizadeh, born on October 3, 1996, in Tabriz, Iran, is an accomplished researcher in power electronics and electrical machines. With a Bachelor’s and Master’s degree from Shahid Beheshti University, his expertise lies in non-isolated high step-up DC-DC converter topologies. As a research leader at Shahid Beheshti University’s Power Electronics Lab, he has collaborated with institutions like Qatar University, Deakin University, and Queensland University. A passionate educator, he mentors students in DC-DC converter design while contributing to numerous high-impact journal publications. His work advances renewable energy applications and high-efficiency power conversion technologies. ⚡

Professional Profile:

Google Scholar

Suitability for Best Researcher Award

Hossein Gholizadeh is an excellent candidate for the Best Researcher Award due to his significant contributions to power electronics, electrical machines, and high-efficiency energy conversion. His research in non-isolated high step-up DC-DC converter topologies plays a crucial role in improving renewable energy applications and power conversion systems.

Education & Experience 🎓💼

  • Bachelor of Electrical Engineering – Shahid Beheshti University (2015-2019) 🏫
  • Master of Electrical Engineering – Shahid Beheshti University (2019-2022) 🏆
  • Teaching Assistant – Shahid Beheshti University (2016-2023) 👨‍🏫
  • Research Assistant – Shahid Beheshti University (2019-2022) 🔍
  • Researcher – Sharif University (2023) ⚡
  • Researcher – University of Tehran (2023-Present) 🏛️
  • Remote Researcher – Deakin University (2020-Present) 🌍
  • Remote Researcher – Qatar University (2022-Present) 🔬
  • Self-Employed Educator – Teaching university courses (2012-Present) 📖

Professional Development 📈🚀

Hossein Gholizadeh has been deeply involved in academic research and professional training in power electronics. He specializes in high step-up DC-DC converters and has contributed significantly to this field through extensive research, publications, and prototype development. As a dedicated mentor, he has trained students in electrical machine design, circuit analysis, and advanced power electronics. His global collaborations with prestigious institutions have enhanced his expertise in developing innovative energy conversion technologies. His work focuses on improving efficiency and reliability in renewable energy applications, driving advancements in power systems worldwide. 🔋💡

Research Focus 🔬⚡

Hossein Gholizadeh’s research primarily revolves around power electronics, specifically non-isolated high step-up DC-DC converter topologies. His contributions aim to enhance power efficiency and voltage conversion in renewable energy applications, such as solar photovoltaics and electric vehicles. His work integrates advanced circuit design, mathematical modeling, and experimental validation to develop high-gain, transformerless, and efficient power conversion systems. He actively collaborates with international researchers to push the boundaries of power electronics, ensuring sustainable and energy-efficient electrical infrastructures. His research significantly impacts modern energy systems, industrial electronics, and smart grids. ⚙️🔌

Awards & Honors 🏆🎖️

  • Top Ranked Student at Shahid Beheshti University, earning direct admission to a Master’s program 🎓
  • Published extensively in high-impact Q1 and Q2 journals 📄
  • Lead Researcher in multiple national and international projects 🔬
  • Mentored students in advanced power electronics and machine design 👨‍🏫
  • Collaborated with top universities like Qatar University & Deakin University 🌍

Publication Top Notes:

An Ultra High Step-Up DC–DC Converter Based on Boost, Luo, and Voltage Doubler  🔗 Cited by: 52
🌱 A Transformerless Quadratic Buck-Boost Converter for Renewable Applications  🔗 Cited by: 47
🔄 A Quadratic Buck-Boost Converter with Continuous Input and Output Currents  🔗 Cited by: 37
🔌 A Transformerless Quadratic Buck-Boost Converter with Wide Output Voltage Range & Low Switch Stresses 🔗 Cited by: 33
🔗 A Power Converter Combining Cuk & Positive Output Super Lift Luo Converters  🔗 Cited by: 32
🔋 A Non-Isolated High Gain DC-DC Converter with Positive Output Voltage & Reduced Current Stresses 🔗 Cited by: 32