Dr. Oualid Messal – Magnetic materials for energy – Best Researcher Award 

Dr. Oualid Messal - Magnetic materials for energy - Best Researcher Award 

Université of Lille - France

AUTHOR PROFILE 

SCOPUS 

👨‍🎓 EARLY ACADEMIC PURSUITS

Dr. Oualid Messal's academic journey began in his home country of Algeria, where he completed his B.Sc. in Electrical Engineering at Béjaia University in 2008. His exceptional academic performance led him to be awarded the prestigious Valedictorian National Undergraduate Award, a distinction organized by the Ministry of Higher Education and Scientific Research (Algeria). This award earned him a scholarship for postgraduate education in France, where he went on to pursue a Master’s degree in Electrical Engineering from Ecole Centrale de Lyon and INSA Lyon, graduating in 2010. His Ph.D. journey at Lyon University began shortly after, where he worked on characterizing and modeling the thermomagnetic behavior of NiFe alloys for virtual prototyping, defending his thesis successfully in 2013.

🔬 PROFESSIONAL ENDEAVORS

Dr. Messal's professional career began in earnest after his Ph.D., when he held the position of Postdoctoral Research Fellow at the National Center for Scientific Research (CNRS) at the Grenoble Electrical Engineering Lab (G2Elab) from 2014 to 2018. During this time, he contributed significantly to various projects related to the thermomagnetic behavior of materials. He also served as an Associate Research Fellow for EZUS Lyon & EDF, where he computed induced currents in the human body in collaboration with Ampère Lab. His diverse expertise and interest in electromagnetism and materials science led him to a career in academia, and since 2018, he has been a Maître de Conférences (Associate Professor) at the University of Lille, working in the Lille Electrical Engineering and Power Electronics Lab (L2EP).

🧪 CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Messal's research is primarily focused on the electromagnetic behavior of materials and their applications in electrical engineering. His Ph.D. work on thermomagnetic behavior of NiFe alloys has laid the foundation for many of his subsequent projects. His primary focus has been on the characterization and modeling of magnetic materials, with specific attention to soft and Magnetic materials for energy feebly magnetic materials. He is also involved in studying the aging effects of magnetic materials and their behavior under strain, with ongoing projects such as the MASTERMIND2 project that aims to understand magnetic aging and develop experimental and modeling advancements in this area. Additionally, Dr. Messal has been active in industrial collaborations, particularly in sectors that involve electromagnetic field exposure and material behavior.

🏅 ACCOLADES AND RECOGNITION

Dr. Messal has been widely recognized for his academic excellence, professional contributions, and expertise in electromagnetic materials. In addition to the Valedictorian Award he received in Algeria, his research on NiFe alloys has been pivotal in shaping current understanding in his field. His expertise is not only recognized in France but also internationally. He is a member of the Magnetic materials for energy technical committee TC 68 on magnetic alloys and steels of the International Electrotechnical Commission (IEC), contributing significantly to the development of international standards for magnetic materials. His contributions in this area have seen him participate in meetings in Japan and Italy, showcasing his international reputation.

🌍 IMPACT AND INFLUENCE

Through his role in the IEC and his leadership in collaborative research projects, Dr. Messal has made a lasting impact on both the academic and industrial communities. His work on magnetic materials and thermomagnetic behavior has influenced advancements in materials science, particularly in applications involving electrical steels and alloys. The international consultations and Magnetic materials for energy committees he is involved in, such as working groups on magnetic material classification and testing methods, have further solidified his role as a key contributor to the field. His work influences not only academic research but also industrial practices and standards.

🏛️ LEGACY AND FUTURE CONTRIBUTIONS

Dr. Messal’s ongoing research in the field of electrical engineering and magnetic materials promises to shape future developments in this vital area of science and engineering. With projects like MASTERMIND2 focusing on the aging behavior of magnetic materials under strain, his work is expected to continue influencing the development of new materials with better performance characteristics. Dr. Messal’s participation in international standardization efforts, combined with his strong academic role, ensures his continued legacy in both research and education, training future generations of engineers and researchers. His work on virtual prototyping and magnetic materials will likely continue to shape the engineering landscape, pushing the boundaries of materials science and engineering.

NOTABLE PUBLICATIONS 

  • Title: ODF-based model considering compressive stress for modeling the magnetic properties of Grain-oriented electrical steels
    Authors: Li, Z., Tang, Z., Messal, O., Benabou, A., Wang, S.
    Journal: Journal of Magnetism and Magnetic Materials, 2024, 604, 172279
  • Title: Study of the ability of MBN-based NDT to distinguish high-performance martensitic steel grades
    Authors: Dherbécourt, M., Messal, O., Tang, Z., Qozam, H., Lefèvre, F.
    Journal: Journal of Magnetism and Magnetic Materials, 2024, 590, 171661
  • Title: Consideration of tensile stress in the ODF-based approach for modelling the first magnetization curves of Grain-Oriented Electrical Steels
    Authors: Li, Z., Tang, Z., Messal, O., Benabou, A., Wang, S.
    Journal: Journal of Magnetism and Magnetic Materials, 2024, 590, 171704
  • Title: Anisotropic Models of Nonlinear Magnetic Behavior Laws for Finite Element Modeling of Iron Losses in a Toroidal Core
    Authors: Drappier, J., Guyomarch, F., Cherif, R., Chevallier, L., Benabou, A.
    Journal: IEEE Transactions on Magnetics, 2024, 60(9), 7500205
  • Title: Anisotropic Models of Nonlinear Magnetic Behavior Laws for Finite Element Modeling of Iron Losses in a Toroidal Core
    Authors: Drappier, J., Guyomarch, F., Cherif, R., Chevallier, L., Benabou, A.
    Journal: 2024 IEEE International Magnetic Conference - Short Papers, INTERMAG Short Papers 2024 - Proceedings, 2024

Dr. Suneel Kumar Sharma – Supercapacitor – Best Researcher Award

Dr. Suneel Kumar Sharma - Supercapacitor - Best Researcher Award

Shri Ganesh Rai Post Graduate College Dobhi Jaunpur Uttar Pradesh - India

AUTHOR PROFILE 

ORCID

SCOPUS 

EARLY ACADEMIC PURSUITS 🎓

Dr. Suneel Kumar Sharma's academic journey began with his pursuit of a Master of Science (M.Sc.) degree, followed by a Ph.D. in Physics. His strong academic foundation laid the groundwork for his future research endeavors. Dr. Sharma is currently serving as an Assistant Professor at Shri Ganesh Rai Post Graduate College, Dobhi Jaunpur, Uttar Pradesh, since July 2022. His passion for physics and energy storage technologies has led him to a career focused on the advancement of supercapacitor devices and their associated electrode materials.

PROFESSIONAL ENDEAVORS 🏫

Dr. Sharma's professional career has been marked by his role as an Assistant Professor in the Department of Physics at Shri Ganesh Rai Post Graduate College, where he has been imparting knowledge and conducting research in the field of energy storage. He has also been actively involved in academic research, focusing on supercapacitor devices, energy storage systems, and the electrochemical processes behind them. Additionally, Dr. Sharma has contributed to the academic community as a reviewer for over eight international journals, helping shape the direction of research in his field.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Dr. Sharma's research is primarily centered around the fabrication of supercapacitor electrodes and the development of supercapacitor devices using advanced techniques such as SILAR (Successive Ionic Layer Adsorption and Reaction), hydrothermal methods, and electrochemical characterization techniques including cyclic voltammetry, galvanostatic charge/discharge, and Supercapacitor electrochemical impedance spectroscopy. His work also explores fractal analysis, which is applied to study the characteristics of the electrodes and improve the efficiency of energy storage devices. His contributions are instrumental in advancing the field of energy storage, particularly in enhancing the performance and efficiency of supercapacitors.

ACCREDITATIONS AND RECOGNITION 🏅

Dr. Sharma’s academic and research contributions have earned him significant recognition in the scientific community. He has authored nine articles published in high-impact journals indexed in SCI and Scopus. With a citation index of 71, his work has made a considerable impact in the field of energy storage and supercapacitors. His research expertise and contributions have also Supercapacitor led to his appointment as a reviewer for more than eight international journals, further highlighting his prominence in the field.

IMPACT AND INFLUENCE 🌍

The work of Dr. Sharma has significantly impacted the field of energy storage, particularly in the development of supercapacitor devices. His innovative approaches to electrode fabrication and electrochemical analysis have led to advancements in energy storage systems that have real-world applications in consumer electronics, electric vehicles, and renewable energy storage. Through his research, Dr. Sharma is contributing to the global efforts aimed at creating sustainable and efficient energy storage solutions, thereby influencing the broader energy and technology sectors.

LEGACY AND FUTURE CONTRIBUTIONS 🔮

Dr. Sharma’s research legacy is built on his dedication to improving energy storage technologies and his ongoing contributions to the field of supercapacitors. His future work promises to expand the boundaries of energy storage research, with an emphasis on sustainable energy solutions. As he continues to innovate and mentor the next generation of scientists, his Supercapacitor contributions will play a crucial role in addressing global energy challenges and advancing clean energy technologies.

NOTABLE PUBLICATIONS 

  • Title: Enriched performance of solid state symmetric supercapacitor based on ((Sr(OH)₂/FeO(OH)) binary composite electrode
    Authors: Suneel Kumar Sharma, Priyanka Maurya, Pandey S. N.
    Journal: Materials Chemistry and Physics
    Publication Date: January 2025
    DOI: 10.1016/j.matchemphys.2025.130357
  • Title: Fractal supported electrochemical analysis of MoO₃ decorated AlOOH binary composite for supercapacitor application
    Authors: Priyanka Maurya, Suneel Kumar Sharma, S.N. Pandey
    Journal: Surfaces and Interfaces
    Publication Date: November 2024
    DOI: 10.1016/j.surfin.2024.105199
  • Title: Efficient Electrochemical Performance of Sr(OH)₂:MnO₂ Binary Composites for Solid State Symmetric Supercapacitor
    Authors: Suneel Kumar Sharma, Kavyashree, S. N. Pandey
    Journal: ChemistrySelect
    Publication Date: June 4, 2024
    DOI: 10.1002/slct.202303325
  • Title: Development of highly efficient supercapacitor based on a ternary (Sr(OH)₂/CoO(OH)/Mn(O)₂) composite: With tuberose mesoporous nanospheres structure
    Authors: Suneel Kumar Sharma, Kavyashree, Priyanka Maurya, S.N. Pandey
    Journal: Journal of Energy Storage
    Publication Date: February 2024
    DOI: 10.1016/j.est.2023.110140
  • Title: First report on binder-free boehmite (AlOOH) based prototype, flexible, high-energy and high-power density solid-state symmetric supercapacitor
    Authors: Priyanka Maurya, Suneel Kumar Sharma, S.N. Pandey
    Journal: Journal of Energy Storage
    Publication Date: February 2024
    DOI: 10.1016/j.est.2023.110036

Assist Prof Dr. Chinmoy das – Energy Materials – Best Researcher Award

Assist Prof Dr. Chinmoy das - Energy Materials - Best Researcher Award

SRM University-AP, Andhra Pradesh - India

Author Profile

SCOPUS

ORCID

Early academic pursuits 🎓

Dr. Chinmoy das began his academic journey with a passion for experimental chemistry, laying a strong foundation during his undergraduate and postgraduate studies. his early interest in sustainable chemistry led him to pursue advanced research focused on eco-friendly materials and energy solutions. this academic groundwork fueled his determination to innovate in areas crucial for addressing climate and environmental challenges.

Professional endeavors 🏛️

throughout his career, dr. das has worked at the intersection of chemistry and environmental sustainability. his professional focus centers on synthesizing functional materials that contribute to sustainable energy solutions. from the conversion of atmospheric co2 into industrial fuels like methanol and ethanol to the creation of clean water from atmospheric moisture, he has consistently pursued impactful solutions. his work with solid-state electrolytes also opens up new possibilities for low-cost, biodegradable lithium and sodium-ion batteries.

Contributions and research focus 🔍

dr. das’s contributions to the field of experimental chemistry are distinguished by his focus on sustainability. he is particularly interested in using green chemistry methods to convert atmospheric co2 into clean fuels, thus offering a promising path toward reducing global carbon emissions. his innovations in harvesting clean Energy Materials water using solar power and creating biodegradable electrolytes for batteries underline his commitment to creating eco-friendly, scalable technologies.

Accolades and recognition 🏅

Dr. Chinmoy das’s pioneering work has garnered recognition from both academic and industrial sectors. his research contributions have led to publications in top-tier journals and invitations to present at international conferences. his ability to bridge fundamental chemistry with practical applications has positioned him as a key Energy Materials figure in sustainable material science and green energy production.

Impact and influence 🌍

The impact of dr. das's research extends beyond the laboratory. his innovative approaches to co2 conversion and water purification have the potential to influence global environmental policy and industrial practices. his work on biodegradable electrolytes offers a promising avenue for reducing the environmental footprint of Energy Materials energy storage technologies. his influence is seen not only in academia but also in industry, where sustainable technologies are urgently needed.

Legacy and future contributions 🔮

dr. Chinmoy das's legacy will be defined by his contributions to developing sustainable, scalable solutions for global environmental challenges. his work in transforming co2 into fuel, purifying water through solar energy, and advancing biodegradable battery technologies will continue to inspire future research. as a visionary experimental chemist, he is poised to lead further innovations in sustainable chemistry, leaving a lasting impact on both scientific and environmental communities.

Notable Publications