Mr. Mostafa Jalalian-Ebrahimi | Power Transfer | Best Researcher Award

Mr. Mostafa Jalalian-Ebrahimi | Power Transfer | Ph.D Candidate at University of Birjand | Iran

Mr. Mostafa Jalalian-Ebrahimi is a dedicated researcher in the field of Power Electronics, with specialized focus on Wireless Power Transfer (WPT), Electric Vehicle charging technologies, and high-efficiency energy conversion systems. He has developed a strong academic and research foundation through his work on inductive charging systems and converter topologies aimed at improving energy efficiency and performance stability. With several peer-reviewed publications, international collaborations, and technical contributions, Mr. Jalalian-Ebrahimi has demonstrated a commitment to advancing research that bridges theoretical innovation and practical application in modern power systems.

Academic Profile:

ORCID

Scopus

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Education:

Mr. Jalalian-Ebrahimi pursued his advanced academic training in electrical engineering with a concentration in power electronics. He completed his Ph.D. at the University of Birjand, where he focused on designing high-performance energy transfer systems using state-space modeling and converter innovation. His academic pathway has been marked by rigorous research, active participation in academic forums, and close engagement with faculty in related fields. His doctoral work has laid the foundation for his ongoing investigations into inductive power transfer and its implementation in electric mobility and sustainable technologies.

Experience:

Throughout his academic and research career, Mr. Jalalian-Ebrahimi has been engaged in collaborative projects with notable institutions and experts in electrical and computer engineering. He has worked closely with colleagues from Tarbiat Modares University and the University of Birjand, contributing to multiple joint publications and technological developments. He has participated in engineering conferences, presenting original work in converter design and power optimization. In addition to his research activities, he is also involved in technical mentoring and student academic support, reflecting his dedication to capacity building within the engineering education ecosystem.

Research Interest:

Mr. Jalalian-Ebrahimi’s core research interests lie in Wireless Power Transfer, Inductive Charging Systems, Power Factor Correction, and DC-DC converter design. His work targets the optimization of energy systems for electric vehicles and renewable energy applications. He has been especially focused on designing systems that maintain high efficiency under variable coupling conditions and enhance misalignment tolerance in inductive power transfer setups. His studies also explore ripple-free input current control and voltage step-up techniques through innovative circuit topologies. His projects are aligned with global efforts toward sustainable energy transformation and efficient power system management.

Award:

Mr. Jalalian-Ebrahimi has been nominated for recognition based on his significant technical contributions and collaborative research achievements. His publication record, international research exposure, and commitment to solving real-world energy challenges underscore his eligibility for this honor. His involvement in pioneering developments in energy-efficient converter systems and WPT technologies represents a meaningful contribution to the field of sensing and electrical power systems. The award nomination acknowledges both his past performance and his potential for continued impact in academia and applied engineering.

Selected Publications:

• Interleaved High Step-up DC-DC Converter with Diode-Capacitor Multiplier Cell and Ripple-Free Input Current
  Published Year: 2015
  Citations: 14

• General Overview of Maximum Power Point Tracking Methods for Photovoltaic Power Generation Systems
  Published Year: 2015
  Citations: 8

• A New Structure and Control System for Boost Converter Based on State Space Modeling for Power Factor Correction
  Published Year: 2015
  Citations: 4

• A Coupling Coefficient Matching Method for WPT System to Maintain Stable Power Transfer and High Efficiency under Wide Coupling Variations
  Published Year: 2025

Conclusion:

Mr. Mostafa Jalalian-Ebrahimi has proven himself as a capable and forward-thinking researcher whose work has direct implications for the future of sustainable energy systems. His contributions to power electronics, particularly in converter technologies and wireless energy transfer, have added value to both academic research and applied science. Through ongoing collaborations and scholarly activities, he continues to enhance the knowledge base in electrical engineering. His profile exhibits strong potential for leadership in research, international engagement, and future contributions to the field, making him a fitting nominee for this prestigious award.