Muhammad Yasir Ali Khan | Power system | Best Researcher Award

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Dr. Muhammad Yasir Ali Khan | Power system | Best Researcher Award

Post Doctoral Fellow , Hohai University , China

Muhammad Yasir Ali Khan is a Post Doctorate Research Fellow at Hohai University, China, specializing in Electrical Engineering, particularly in Microgrids and Power Electronics. Born on March 13, 1992, in Pakistan, he has a strong academic and professional background in electrical engineering with expertise in power systems, renewable energy, and energy storage technologies. His work combines theoretical research with practical applications, aiming to develop efficient, sustainable, and resilient power systems. Muhammad has contributed to numerous high-impact research papers and has an international academic and industry experience. He is dedicated to advancing the field of energy engineering through his innovative research, contributing to the global transition to renewable energy solutions.

Profile

Strengths for the Award

  1. Strong Academic Background:
    • Ph.D. in Electrical Engineering from Hohai University, with a focus on Microgrids and Power Electronics.
    • M.S. and B.S. degrees in Electrical Engineering with specialization in Power Electronics and Human Machine Interface, showcasing a solid foundational knowledge in electrical engineering.
  2. Research Contributions and Publications:
    • Muhammad Yasir Ali Khan has contributed to various high-impact research papers in reputable journals like IEEE Access, Journal of Energy Storage, and IET Renewable Power Generation.
    • His research topics are cutting-edge, with contributions in areas like Microgrids, Power Electronics, Hybrid AC/DC Microgrids, Maximum Power Extraction in Photovoltaic Systems, and Sustainable Alternatives to SF6 in High Voltage Applications.
    • He has co-authored review articles and original research papers, demonstrating his ability to synthesize existing knowledge and advance new findings.
  3. Citations and Impact:
    • His papers have received a respectable number of citations, reflecting the relevance and impact of his research in the field. For instance, his paper on “Distributed Secondary Control for Islanded Microgrids” has garnered 3 citations since publication, indicating interest from the research community.
    • Another paper on maximum power extraction methods in photovoltaic systems has received 9 citations, highlighting the significance of his work in renewable energy.
  4. Interdisciplinary Expertise:
    • His research spans multiple aspects of electrical engineering, from power systems to renewable energy technologies like photovoltaics. He also explores the integration of advanced control strategies in microgrids, indicating his ability to tackle complex, interdisciplinary problems.
    • The inclusion of innovative topics such as sustainable materials in high-voltage applications (e.g., the SF6 alternative paper) demonstrates his foresight in tackling global challenges in energy systems.
  5. Leadership and Collaboration:
    • His role as a Research Assistant at COMSATS University and as a Post Doctorate Research Fellow at Hohai University demonstrates leadership qualities, including teamwork, problem-solving, and technical writing.
    • His collaborative efforts with other researchers, particularly in joint papers, highlight his strong communication and teamwork skills.
  6. Global Exposure and Contribution:
    • Muhammad has international experience, having worked in China at Hohai University and his prior experience in Pakistan with Bahria Town Private Limited. This international exposure is beneficial for networking, knowledge exchange, and collaborating on global research efforts.

Areas for Improvement

  1. Further Increase in Citation Impact:
    • While his research has garnered citations, the overall citation count could be improved. Increased visibility of his work could come from publishing in even higher-impact journals or contributing to more widely-cited reviews and seminal papers.
  2. Broader Research Network:
    • Building a broader network of collaborators across different regions or institutions could further elevate his visibility in the research community and open new avenues for cross-disciplinary collaborations.
  3. Outreach and Dissemination:
    • There may be opportunities to engage more with industry, presenting his research at major conferences or writing white papers that are more accessible to a broader audience. This could further enhance the practical application of his work, particularly in areas like microgrid systems and power electronics.
  4. Diversity in Research Topics:
    • While his focus on microgrids and power electronics is well-defined, exploring additional emerging topics (e.g., artificial intelligence in power systems, grid resilience, or energy storage technologies) could enhance his research portfolio and help stay ahead of the curve in these rapidly developing fields.

Education 

Muhammad Yasir Ali Khan completed his Ph.D. in Electrical Engineering from Hohai University, China, specializing in Microgrids and Power Electronics (2019–2023). He also holds a Master’s in Electrical Engineering from COMSATS University Islamabad, Pakistan, where he focused on Power Electronics (2016–2018). Muhammad completed his Bachelor’s in Electrical (Electronics) Engineering from COMSATS Institute of Information Technology, Pakistan, with research in Human-Machine Interfaces (2010–2014). His academic journey has been marked by rigorous research in energy systems, with a strong foundation in electronics and electrical engineering principles. During his doctoral studies, he developed expertise in the integration of renewable energy systems, advanced control methods, and microgrid technologies. His educational background, along with his research experience, has equipped him with the skills to address complex energy challenges and contribute to the development of sustainable power systems.

Experience 

Muhammad Yasir Ali Khan has accumulated valuable experience in both academic research and industry. As a Post Doctorate Research Fellow at Hohai University, he is engaged in advanced research in Microgrids and Power Electronics. Prior to this, he worked as a Research Assistant at COMSATS University Islamabad, where he contributed to projects in Power Electronics and Energy Systems (2018-2019). His industry experience includes roles as a Test Engineer (Protection) and Technical Officer at Bahria Town Private Limited, where he worked on high-voltage electrical grid stations (220/132 kV) and security systems (2014–2015). These roles allowed him to apply his technical knowledge in practical settings, further enriching his research and development capabilities. Muhammad’s academic and industry experiences enable him to bridge the gap between theory and real-world applications, particularly in renewable energy integration and microgrid systems.

Research Focus 

Muhammad Yasir Ali Khan’s research primarily focuses on Microgrids, Power Electronics, and Renewable Energy Systems. His work aims to improve the efficiency, reliability, and sustainability of energy systems through advanced control strategies and power electronics technologies. Key areas of his research include the integration of renewable energy sources such as solar and wind power into microgrids, the development of hybrid AC/DC systems, and advanced power conversion techniques for optimal energy management. His research also explores energy storage solutions, such as carbon and metal-organic framework materials, for enhancing grid stability and performance. Additionally, he investigates communication delays and secondary control schemes for islanded and grid-connected microgrids. His work on sustainable dielectric mixtures as alternatives to SF6 gas in high-voltage applications further underscores his commitment to advancing eco-friendly solutions in power systems. Muhammad’s research aims to contribute to the global shift towards sustainable, smart, and resilient energy systems.

Publications 

  1. “A comprehensive review on recent advancements in new carbon and metal-organic framework-based energy storage materials and devices” 🌱⚡
  2. “Distributed secondary frequency control scheme with A-symmetric time-varying communication delays and switching topology” 🔄🕒
  3. “Hybrid AC/DC Microgrid: Systematic Evaluation of Interlinking Converters, Control Strategies, and Protection Schemes: A Review” 🔌⚙️
  4. “Distributed Secondary Control for Islanded Microgrids Considering Communication Delays” 🌐⚡
  5. “Hybrid Maximum Power Extraction Methods for Photovoltaic Systems: A Comprehensive Review” ☀️🔋
  6. “A unified distributed hierarchical control of a microgrid operating in islanded and grid-connected modes” 🌍🔌
  7. “Dichlorodifluoromethane-carbon dioxide: A dielectric mixture as a sustainable alternative to SF6 in high-voltage applications” 💨⚡
  8. “Distributed hierarchical control strategy for multi-bus AC microgrid to achieve seamless synchronization” 🔗🔋
  9. “Design and Performance Evaluation of a Step-Up DC–DC Converter with Dual Loop Controllers for Two Stages Grid Connected PV Inverter” 🔌🌞
  10. “Design of a multiport bidirectional DC-DC converter for low-power PV applications” ⚡🔄

Conclusion

Muhammad Yasir Ali Khan is a highly promising researcher with a robust academic background and significant contributions to the fields of microgrids, power electronics, and renewable energy systems. His strong publication record, the relevance of his research topics, and his leadership abilities position him as an excellent candidate for the “Best Researcher Award.By enhancing his citation impact and continuing to expand his research network and outreach efforts, Muhammad can further strengthen his position as a leading expert in his field. His work already has a solid foundation, and with continued effort, he is likely to make even more substantial contributions to the advancement of electrical engineering and energy systems.

CHANG-HUA LIN | Power Electronics | Outstanding Scientist Award

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Prof. CHANG-HUA LIN | Power Electronics | Outstanding Scientist Award

Professor, National Taiwan University of Science and Technology, Taiwan

Professor Chang-Hua Lin is a distinguished academic at the National Taiwan University of Science and Technology, specializing in power electronics. With a career spanning over 34 years, he has made significant contributions to the fields of battery management systems, hybrid energy storage systems, and high-voltage pulsed power supplies. His work has been recognized globally through numerous publications, patents, and awards. 📚🔬

Profile

Orcid

Strengths for the Award

Chang-Hua Lin exemplifies excellence in the field of power electronics, distinguished by his extensive research and groundbreaking contributions. His career spans over three decades, during which he has significantly advanced knowledge in areas such as battery management systems, high-voltage power supplies, and renewable energy systems. His work is evidenced by 86 SCI papers, two influential books, and 14 patents. Lin’s research has led to numerous innovations, including a novel high-voltage power supply system and an advanced lithium battery management system. His leadership in industry collaborations and successful guidance of numerous students further highlights his commitment to advancing the field.

Areas for Improvement

Despite his impressive achievements, there are areas where Lin could enhance his impact further. Expanding his research into emerging fields like quantum computing and its applications in power electronics could position his work at the cutting edge of technological advancements. Additionally, increasing his involvement in international collaborative projects could offer broader exposure and integration of diverse perspectives, potentially leading to more interdisciplinary breakthroughs.

Education 🎓

Professor Lin earned his PhD in Power Electronics from National Taiwan University of Science and Technology (NTUST) in 2000. He began his academic journey as a lecturer at St. John’s University of Science and Technology in 1991, further developing his expertise in power electronics and energy systems.

Experience 💼

Professor Lin has held prominent academic and research positions at various institutions. He worked at Tatung University from 2007 to 2016 in the Department of Electrical Engineering, focusing on lighting systems and battery SOC/SOH estimation. Since 2016, he has been a faculty member at NTUST, concentrating on battery management systems, hybrid energy storage systems, and high-voltage pulsed power supplies. His roles also include serving as an independent director for Billion Electric Co., Ltd. and a technical consultant for You-Shang Tech. Corp. 🔍🔧

Research Interests 🔬

Professor Lin’s research interests include:

Battery Management Systems: Design and implementation of advanced battery management technologies.

Hybrid Energy Storage Systems: Development of energy storage solutions for electric vehicles and renewable energy systems.

High-Voltage Pulsed Power Supplies: Innovation in high-voltage power supplies for specialized applications.

Renewable Energy Systems: Integration and optimization of photovoltaic systems and energy converters.

Publications Top Notes 📄

Professor Lin has published extensively in renowned journals. Some of his notable works include:

“An Improved High Gain Continuous Input Current Quadratic Boost Converter for Next-Generation Sustainable Energy Application,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 71, no. 5, May 2024 – Impact Factor: 4.4

“Design and Analysis of Novel High-Gain Boost Converter for Renewable Energy Systems (RES),” IEEE ACCESS, vol. 12, Feb. 2024 – Impact Factor: 3.

Conclusion

Chang-Hua Lin’s distinguished career and innovative research make him a prime candidate for the Best Researcher Award. His profound contributions to power electronics and his role in mentoring future scientists underscore his commitment to advancing scientific knowledge and technology. Lin’s work not only addresses current technological challenges but also paves the way for future developments, making him a deserving recipient of this prestigious award.

Kaixuan Li | power electronics | Best Researcher Award

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Mr. Kaixuan Li | power electronics | Best Researcher Award

PhD student, Xi’an jiaotong university, China

Kaixuan Li is a dedicated Ph.D. student specializing in Electrical Engineering at Xi’an Jiaotong University. Currently, his research is focused on insulation technology in medium-voltage (MV) power modules, where he explores innovative solutions to enhance power module reliability and performance. His academic journey and research contributions have made him a recognized figure in the field of power electronics, particularly in electrical insulation.

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Google Scholar

Strengths for the Award

Kaixuan Li is a highly promising Ph.D. student in Electrical Engineering, focusing on insulation research in medium-voltage (MV) power modules. With a solid academic foundation and a distinguished track record in research, Kaixuan has demonstrated significant expertise in electrical insulation for power equipment. His contributions include the development of innovative techniques for enhancing the reliability and performance of power modules, which have been recognized in several high-impact journals and conferences. Kaixuan has authored or co-authored 20 papers, with 13 indexed in SCI and seven in EI, achieving over 120 citations. These publications showcase his ability to produce high-quality research that addresses critical challenges in the field of power electronics. Moreover, his role as a visiting scholar at Virginia Tech, supervised by a respected IEEE Fellow, underscores his dedication to advancing his knowledge and skills. His work on double-sided cooled SiC MOSFET phase-leg modules and high-voltage, high-temperature encapsulants further highlights his innovative approach to solving complex problems in electrical engineering.

Areas for Improvement

While Kaixuan Li has shown remarkable potential in his research endeavors, there are areas where he could further enhance his profile. His experience could be broadened by taking on more leadership roles in collaborative research projects, which would allow him to gain experience in managing teams and directing research initiatives. Additionally, expanding his research to include practical, real-world applications of his findings could help bridge the gap between theoretical research and industry needs. Engaging in interdisciplinary projects that combine his expertise in electrical engineering with other fields such as materials science or mechanical engineering could also broaden the impact of his work. Furthermore, increasing his visibility in the international research community by presenting at more global conferences and contributing to international collaborations would enhance his professional network and reputation.

Education 🎓

Kaixuan Li has a strong educational background in Electrical Engineering. He completed his bachelor’s degree at Hunan University, ranking 35th out of 263 students in his class. He then pursued a master’s degree at Xi’an Jiaotong University, where he researched high voltage and current under the supervision of Professors Sergey Lebedev, Xingwen Li, and Associate Professor Boya Zhang. Currently, Kaixuan is a Ph.D. student at Xi’an Jiaotong University, focusing on insulation research in MV power modules, and he is also a visiting scholar at Virginia Tech, working under the guidance of Professor Guo-Quan Lu, an IEEE Fellow.

Experience 🛠️

Kaixuan’s experience is rooted in academic research and hands-on projects in power electronics. He has been involved in several significant programs, including developing double-side cooled SiC MOSFET phase-leg modules and high voltage and high-temperature encapsulants. His current role as a visiting scholar at Virginia Tech allows him to collaborate with leading experts in the field, enhancing his research capabilities and broadening his expertise in high-density integration of power modules.

Research Interest 🔬

Kaixuan Li’s research interests lie in electrical insulation for power electronics, particularly in medium-voltage power modules. He is passionate about exploring innovative materials and technologies to improve insulation performance, reliability, and efficiency. His work also extends to studying high voltage and current phenomena, which are crucial for developing advanced power electronic systems.

Awards 🏆

Kaixuan Li has received numerous accolades for his academic excellence and research contributions. Notably, he was awarded the Innovative Leading Talents Scholarship at Xi’an Jiaotong University for the 2023-2024 academic year. His achievements also include the National Second Prize in the China Graduate Mathematical Contest in Modeling in 2020 and the Second Prize in the College Student Electronic Design Competition in 2018.

Publications Top Notes 📚

Kaixuan Li has an impressive portfolio of publications, with 20 papers published or accepted as of August 2024. His works have been featured in prestigious journals such as IEEE Transactions on Power Electronics and Polymer Degradation and Stability. Many of his papers are co-authored with leading experts in the field, and his research has garnered over 120 citations, reflecting its impact and relevance in the scientific community. Here are a few notable publications:

Spatiotemporal measurement of charge at ceramic substrate-silicone gel interface in medium-voltage power modules – IEEE Transactions on Power Electronics, Early Access, 2024.

Degradation behaviors of silicone gel encapsulation material with moisture intrusion – Polymer Degradation and Stability, Vol. 206, 110197, Nov. 2022.

Electric field mitigation in high-voltage high-power IGBT modules using nonlinear conductivity composites – IEEE Transactions on Components, Packaging, and Manufacturing Technology, Vol. 11, No. 11, Nov. 2021.

Conclusion

Kaixuan Li’s impressive academic achievements, innovative research, and dedication to advancing the field of power electronics make him a strong candidate for the “Best Researcher Award.” His work on insulation in MV power modules and his significant contributions to the field through numerous publications and research projects demonstrate his ability to tackle complex engineering challenges. With continued focus on expanding his research scope and leadership experience, Kaixuan has the potential to make even more substantial contributions to the field of electrical engineering. Recognizing his achievements with this award would not only honor his past contributions but also encourage his continued pursuit of excellence in research.

Fujin Deng | Power electronics | Best Researcher Award

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Prof Dr. Fujin Deng | Power electronics | Best Researcher Award

Professor, Southeast University, China

Professor Fujin Deng is a renowned expert in power electronics, currently serving as the Head of the Department of Power Electronics at Southeast University (SEU), China. With a strong academic and research background, he has made significant contributions to the fields of renewable energy and power electronics, particularly in modular multilevel converters and high-voltage direct current technology. His work is widely recognized and celebrated in both academic and industrial circles, evidenced by numerous prestigious awards and a robust portfolio of influential publications.

Profile

Google Scholar

Strengths for the Award

Professor Fujin Deng demonstrates substantial qualifications that make him a strong candidate for the “Best Researcher Award.” As the Head of the Department of Power Electronics at Southeast University and a seasoned professor with over a decade of research experience, he has significantly contributed to advancing power electronics, particularly in renewable energy applications. His research interests encompass critical areas such as wind energy, modular multilevel converters (MMCs), high-voltage direct current (HVDC) technology, and fault diagnosis for power converters. These are pivotal technologies in the global push toward sustainable energy systems.

Professor Deng’s prolific publication record in high-impact journals, such as IEEE Transactions on Power Electronics and IEEE Transactions on Industrial Electronics, indicates his active role in advancing research in his field. His works often explore innovative solutions to enhance power electronic systems, as seen in his recent publications on topics like noise suppression for inverters and hybrid MMCs for DC fault management. His ability to attract and manage significant research funding and his participation in international collaborations further illustrate his leadership and the recognition of his work by the global scientific community. Furthermore, his numerous awards, including the “Best Younger Scientist Award” and multiple best paper awards, underline his research excellence and influence in the field of power electronics.

Areas for Improvement

While Professor Deng’s contributions to the field of power electronics are extensive, there are a few areas where he could potentially enhance his profile. Firstly, while his research outputs are impressive, a greater focus on interdisciplinary research could broaden the impact of his work, allowing for innovations that cross the boundaries of traditional power electronics and contribute to related fields such as artificial intelligence in energy systems or smart grid technology. Additionally, while he has a strong presence in technical tutorials and sessions, expanding his influence through more public outreach or industry partnerships could further the practical impact of his research findings and facilitate the translation of his innovations from academia to real-world applications.

Secondly, fostering a more visible mentorship role by guiding PhD students and young researchers in publishing high-quality research could further strengthen his position as a leader in his field. Enhancing his international collaborations, particularly with institutions outside of Asia and Europe, could also provide broader perspectives and opportunities for groundbreaking, diverse research projects.

Education

Professor Deng has an impressive educational background in electrical engineering. He earned his Ph.D. in Energy Technology from Aalborg University (AAU), Denmark, in 2012. Before that, he completed his Master’s degree in Electrical Engineering at Shanghai Jiao Tong University (SJTU), China, in 2008, following his Bachelor’s degree in Electrical Engineering and Automation from the China University of Mining and Technology (CUMT) in 2005. His educational journey has been marked by a continuous focus on power electronics and energy technologies, laying a solid foundation for his research career.

Experience

Professor Deng has a diverse range of professional experience in academia and industry. Since May 2017, he has been a Professor at the School of Electrical Engineering, SEU, China. Before joining SEU, he served as an Assistant Professor at the Department of Energy Technology, Aalborg University, Denmark, from July 2015 to April 2017. His postdoctoral work at AAU from 2013 to mid-2015 focused on advanced power electronic systems, further honing his expertise. Additionally, he has industrial experience as an Engineer at the Technical Center of Shanghai Electric Power T&O Group in 2008, where he applied his knowledge to practical power systems.

Research Interests

Professor Deng’s research interests lie at the intersection of renewable energy and power electronics. His primary focus areas include the development and optimization of Modular Multilevel Converters (MMCs), high-voltage direct current (HVDC) technology, DC/DC solid state transformers, and fault diagnosis and tolerant control for power converters. He is also deeply involved in the modeling and control of wind turbine systems, particularly those based on DFIG and PMSG technologies. His work aims to advance the integration of renewable energy into power systems, enhancing both efficiency and reliability.

Awards

Professor Deng’s contributions have been widely recognized through various awards and honors. Some notable accolades include the IEEE Transactions on Power Electronics’ Outstanding Reviewer awards in 2015 and 2021, the Best Presentation award at IEEE IECON 2016, and the Best Younger Scientist Award from IEEE CCCSC in 2021. He has also been honored multiple times for his leadership roles in international conferences, including serving as a Session Chair and giving tutorials on cutting-edge technologies in power electronics. These awards reflect his significant impact on the field and his dedication to advancing power electronics research.

Publications Top Notes

Professor Deng has a rich portfolio of publications that have made significant contributions to the field of power electronics. His work has been published in leading journals and widely cited by peers, highlighting the impact of his research. Here are some of his recent notable publications:

Lin, D., Deng, F., Hua, W., Cheng, M., & Wang, Z. “High-performance optical dialogue for power electronic system.” Applied Energy, accepted, 2024.

Li, C., Zhang, Q., Zhu, R., Zhang, J., Yang, H., Deng, F., & Sun, X. “Data-driven Compensation Algorithm for Optimizing Power Quality in Interleaved Boost PFC.” IEEE Access, accepted, 2024.

Yin, Z., Deng, F., Kaddah, S., & Abulanwar, S. “Modulated PLPR-Based Predictive Control With Noise Suppression for LC-Filtered Voltage Source Inverters.” IEEE Transactions on Industrial Electronics, accepted, 2024.

Gardouh, A., Abulanwar, S., Deng, F., Gouda, E., & Ghanem, A. “Novel Fuzzy-based Open-Switch Fault Detection Scheme of Voltage Source Inverter Induction Motor Drive.” IEEE Transactions on Power Electronics, accepted, 2024.

Li, H., Deng, F., Zhu, Z., Lin, J., & Zhou, Q. “Thyristor Branch Loop-Based Hybrid Modular Multilevel Converters for DC Short-Circuit Faults.” IEEE Transactions on Power Electronics, accepted, 2024.

Conclusion

Overall, Professor Fujin Deng is a highly qualified candidate for the “Best Researcher Award.” His substantial contributions to power electronics, especially in the context of renewable energy, have had a considerable impact on both academic research and practical applications. His extensive list of awards and publications highlights his innovative approach and dedication to advancing his field. Although there is room for growth in terms of interdisciplinary collaboration, public outreach, and mentorship, his achievements thus far are commendable and position him as a leading researcher whose work is likely to continue making significant contributions to sustainable energy technologies.