Mr. Rohit Yadav | High energy physics | Best Researcher Award

National Institute of Technology Warangal | India

Rohit Yadav is a Research Scholar at the National Institute of Technology (NIT), Warangal, India, specializing in hybrid supercapacitors and electrode materials for energy storage systems. His research focuses on designing and developing high-performance, eco-friendly supercapacitors aimed at advancing electric vehicles (EVs) and promoting green energy solutions. Rohit’s work is essential for the sustainable energy revolution and has already contributed significantly to renewable energy storage and smart grid applications.

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Early Academic Pursuits 🎓

Rohit completed his M.Sc. in Physics in 2020 from the Malviya National Institute of Technology, Jaipur, India. His dissertation focused on studying cathode materials for metal-air batteries, laying a strong foundation for his later work in advanced energy storage systems. His academic journey provided a deep understanding of material science and electrochemical processes, which continues to shape his innovative approach to supercapacitor research.

Professional Endeavors 🔬

As a Program Committee Member for the IEMDST 2024 Conference, Rohit played a crucial role in organizing and overseeing a global scientific event. Additionally, he served as the General Secretary of the Physics Society at NIT Warangal in 2023, organizing scientific talks and coordinating weekly research presentations. His leadership and collaboration in these roles underscore his commitment to fostering scientific dialogue and promoting academic growth in the scientific community.

Contributions and Research Focus 🔍

Rohit’s research interests span across the development of hybrid supercapacitors, focusing on the synthesis and characterization of novel electrode materials. His work directly impacts the advancement of energy storage systems for electric vehicles and renewable energy solutions. By enhancing the performance of supercapacitors with eco-friendly materials like mesoporous strontium titanate and activated carbon derived from natural biomass, he contributes to sustainable, efficient energy storage solutions. His dedication to green energy applications marks a crucial intersection of technology and environmental impact.

Research Skills 🛠️

Rohit is highly skilled in synthesis techniques such as sol-gel and hydrothermal methods for creating novel electrode materials. His expertise includes electrochemical characterization, materials optimization, and nanomaterial design, which are key in developing high-performance energy storage systems. Additionally, he is proficient in advanced analytical techniques, ensuring that his materials meet the rigorous demands of sustainable energy solutions.

Awards and Honors 🏆

Rohit’s dedication and hard work have been recognized through several accolades:

Best Paper Award – 2023: For his exceptional paper presented at an international conference.
Position Certificate in Mini Marathon – 2024: A testament to his balanced and disciplined approach to both academic and personal growth.

These honors highlight his outstanding contributions to the field of energy storage and his commitment to excellence in both academic and extracurricular endeavors.

Legacy and Future Contributions 🚀

Rohit’s long-term vision is to push the boundaries of hybrid supercapacitor technology and advanced electrode materials to further enhance energy storage systems for electric vehicles and renewable energy grids. His work is poised to play a crucial role in the global transition to sustainable energy solutions, and he aspires to continue contributing to green technologies that benefit both society and the environment.

Publications Top Notes

Synthesis and Electrochemical characterization of activated porous Carbon Derived from Walnut shells as an Electrode material for symmetric Supercapacitor Application

Authors: R Yadav, N Macherla, K Singh, K Kumari
Journal: Engineering Proceedings 59 (1), 175
Year: 2024

Structural-Morphological Insights into Optimization of Hydrothermally Synthesized MoSe2 Nanoflowers for Improving Supercapacitor Application

Authors: P Yadav, R Yadav, J Pani, RM Singh, D Singh, K Kusum, H Borkar, …
Journal: Dalton Transactions
Year: 2025

Temperature-dependent hydrothermal processing of WS2 nanorods with controlled growth morphology, crystallography and optical properties

Authors: DS Ahlawat, D Singh, R Yadav, K Kumari, H Borkar, J Gangwar
Journal: Materials Letters 377, 137386
Year: 2024

Electrochemical analysis of sol-gel and hydrothermal synthesized mesoporous strontium titanate spherical nanoparticles as electrode material for high-performance flexible supercapacitors

Authors: R Yadav, R Banoth, K Singh, H Borkar, K Kumari
Journal: Materials Chemistry and Physics 328, 130004
Year: 2024

Novel industrial biomass derived materials for super capacitor application in powering up electronic gadgets

Authors: P Yadav, PA Azeem, S Patel, G Mahar, R Yadav, H Borkar
Journal: Journal of Energy Storage 97, 112653
Year: 2024

Dr. Thierry Clotaire SANJONG DAGANG | High energy physics | Emerging Researcher in Physics Award

Lecturer at Institut Universitaire de Technologie FOTSO Victor de Bandjoun/ Universite de Dschang , Cameroon

Sanjong Dagang Thierry Clotaire, born on June 16, 1986, in Melong, Cameroon, is an accomplished academic and researcher in the field of electrical engineering and electronics. He earned his Ph.D. in Physics from the University of Dschang, with a specialization in electronics. Currently, he serves as a lecturer in the Electrical Engineering Department at the IUT-FV, University of Dschang. His teaching focuses on various practical and theoretical aspects of electrical and electronic engineering. With a strong passion for research, Sanjong collaborates with the Automatic Control and Applied Computing research unit (URAIA), working on advanced automation applications in the field of electrical energy. He has co-authored numerous scientific papers in prestigious journals and conferences, contributing significantly to his field.

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Education:

Sanjong Dagang Thierry Clotaire has an impressive academic background in physics and engineering. He obtained his Doctorate/Ph.D. in Physics, specializing in electronics, from the University of Dschang in 2017. Prior to this, in 2013, he earned his Master of Science in Physics, also with a focus on electronics, from the same institution. His undergraduate education was completed at IUT-FV of Bandjoun, where he received a Bachelor of Science in Electrical Engineering in 2009, followed by a Diplôme Universitaire de Technologie in Electrical Engineering, specializing in Electrotechnics, in 2008. Sanjong’s solid academic foundation started with a Baccalauréat C from the Bilingual School of Melong in 2006. His educational journey reflects his dedication to mastering the fields of physics and electronics, equipping him with deep theoretical knowledge and practical skills.

Professional experience:

Sanjong Dagang Thierry Clotaire has built a diverse academic and professional career, primarily as a lecturer at the IUT-FV of the University of Dschang. He has been teaching courses in the Electrical Engineering Department since 2019, offering expertise in subjects such as practical physical measurements, tests and measurements, electrical machines, and basic electronics. Additionally, he contributes to the department with hands-on teaching in courses related to electrical circuits, simulation of electrical systems, and industrial electrical networks. Previously, from 2013 to 2019, he worked as a part-time lecturer at the same institution, covering practical and theoretical aspects of electrical engineering. His vast experience also includes teaching in fields such as refrigeration, mechatronics, and electrotechnics, proving his versatile knowledge across engineering disciplines. Sanjong balances his teaching responsibilities with active research in automation and signal processing.

Research focus:

Sanjong Dagang Thierry Clotaire’s research is centered on automation and signal processing, with a specific focus on applying automation to the field of electrical energy. As a member of the Automatic Control and Applied Computing research unit (URAIA), he works within the Automation and Signal Processing (ATS) team, exploring robust control strategies for energy systems. His research includes projects such as adaptive PI control for self-excited induction generators, fuzzy logic-based control for wind turbine systems, and neuro-fuzzy methods for hybrid power supplies. Sanjong’s work is aimed at optimizing energy generation and distribution through advanced control mechanisms, particularly in the context of renewable energy sources like wind turbines. His expertise in this area contributes to the ongoing development of sustainable and efficient energy solutions, making his research impactful in both theoretical and applied domains.

Awards and Honors:

Sanjong Dagang Thierry Clotaire has garnered recognition for his research in automation and signal processing, particularly in electrical energy applications. Throughout his academic journey, he has co-authored influential papers in high-impact journals, earning respect within the international scientific community. His collaborative work with researchers like Godpromesse Kenne and Fombu Andrew Muluh has contributed to groundbreaking developments in control strategies for wind turbine systems, hybrid power supplies, and energy management systems. Sanjong has also presented his research at prestigious international conferences, such as the Cameroon Physical Society’s International Conference and the ANSOLE-Cameroon National Conference for Young Scientists. His commitment to innovation and excellence has solidified his reputation as a leading researcher in his field. While formal accolades are not mentioned explicitly, his publications and research collaborations reflect a distinguished career marked by academic contributions and peer recognition.

Publication Top Notes:

A Simple Lyapunov Function Based Control Strategy for Coordinated Transient Stability Enhancement of Power Systems
Muluh, F.A., Dagang, C.T.S., Pierre, P.M.J., Leroy, S.L., Godpromesse, K.
Indonesian Journal of Electrical Engineering and Informatics, 2024, 12(2), pp. 397–408
Citations: 0
Qualitative Performance Improvement of a Hybrid Power Supply at the DC Common Coupling Point Using a Neuro-Fuzzy Method
Bissé, J.T.N., Pesdjock, M.J.P., Sanjong Dagang, C.T., Kenne, G., Sonfack, L.L.
Scientific African, 2024, 24, e02229
Citations: 0
Predictive Current Control Strategies of Grid Connected-Self Excited Induction Generator
Sanjong Dagang, C.T., Kenné, G.
Scientific African, 2024, 23, e02044
Citations: 0
A Simple Fuzzy Logic Based DC Link Energy Management System for Hybrid Industrial Power Supply
Mbende, E.T., Muluh, F.A., Pesdjock, M.J.P., Sanjong Dagang, C.T., Sonfack, L.L.
Energy Reports, 2023, 10, pp. 3619–3628
Citations: 2
Synergetic Control for Stand-Alone Permanent Magnet Synchronous Generator Driven by Variable Wind Turbine
Tchoumtcha, D.B., Dagang, C.T.S., Kenne, G.
International Journal of Dynamics and Control, 2023, 12(8), pp. 2888–2902
Citations: 1
Fuzzy Logic Direct Torque/Power Control for a Self-Excited Induction Generator Driven by a Variable Wind Speed Turbine
Dagang, C.T.S., Kenne, G., Muluh, F.A.
International Journal of Dynamics and Control, 2021, 9(3), pp. 1210–1222
Citations: 11
Effects of Symmetric and Asymmetric Nonlinearity on the Dynamics of a Third-Order Autonomous Duffing-Holmes Oscillator
Doubla, I.S., Kengne, J., Tekam, R.B.W., Njitacke, Z.T., Dagang, C.T.S.
Complexity, 2020, 2020, 8891816
Citations: 7

Conclusion:

Sanjong Dagang Thierry Clotaire’s combination of academic rigor, innovative research, and extensive teaching experience makes him a strong contender for the Best Researcher Award. His work in renewable energy systems and automation is forward-looking and addresses some of the key challenges of the modern world, making him an asset in his field.

Rohit Yadav | High energy physics | Best Researcher Award