Gaurav Yadav | Electrical Engineering | Young Researcher Award

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Mr. Gaurav Yadav | Electrical Engineering | Young Researcher Award

Assistant Professor at SRM University, India

Dr. Gaurav Yadav is a dynamic researcher and academician with a strong background in electrical engineering, currently serving as an Assistant Professor in the Electrical and Electronics Engineering Department at SRM University, Sonipat. He has consistently demonstrated excellence in academia, research, and technical innovation. With a Ph.D. in Power Electronics from Delhi Technological University, his research focuses on electric vehicle (EV) charger technologies, power converters, and grid-interactive systems. Dr. Yadav’s work bridges theoretical design and practical implementation, integrating advanced AI/ML tools for enhancing control systems. He has authored numerous peer-reviewed journal articles and conference papers with reputed publishers such as IEEE, Springer, Wiley, and IOP. He brings robust technical skills in software like MATLAB/Simulink, LabVIEW, PSIM, and hardware expertise with platforms like dSPACE and OPAL-RT. His active participation in high-impact workshops and seminars on EV technology and power electronics reinforces his commitment to lifelong learning and contribution to sustainable and smart energy systems. Passionate about applied research, Dr. Yadav is highly regarded for his interdisciplinary collaboration and real-time system development, making significant contributions to India’s academic and industrial landscape in energy technology.

Professional Profile

 

Education

Dr. Gaurav Yadav has built a solid educational foundation in electrical engineering and power systems through his academic journey. He completed his Ph.D. in Power Electronics from Delhi Technological University (DTU), where his research culminated in a thesis focused on the design and development of a grid-interactive electric vehicle charger. Prior to his doctoral work, he earned his Master of Technology in Power System Engineering from Integral University in 2019, graduating with distinction (83%). His undergraduate studies in Electrical Engineering at the same institution laid the groundwork for his specialization, achieving a commendable 71.16% in 2015. Earlier, he completed his intermediate and high school education from Jeevan Dhara Convent School, Lucknow, affiliated with the I.S.C and I.C.S.E boards respectively. With a keen interest in practical applications and emerging technologies, Dr. Yadav continuously augmented his learning through hands-on projects, research training, and industry-oriented workshops. This comprehensive academic background has not only equipped him with deep technical knowledge but also nurtured a passion for innovation and problem-solving in power electronics, renewable energy systems, and electric vehicle technology.

Professional Experience

Dr. Gaurav Yadav began his academic career as an Assistant Professor at SRM University, Sonipat, Haryana, starting in July 2025. In this role, he has demonstrated excellence in teaching, curriculum development, student mentorship, and research collaboration. His academic endeavors are strongly aligned with his research interests in power electronics and electric vehicle systems. As a faculty member, he plays a crucial role in bridging theoretical learning with real-world applications by involving students in simulation-based modeling and hardware implementations using state-of-the-art platforms like OPAL-RT, dSPACE, and LabVIEW. His previous experiences include extensive engagement in research during his M.Tech and Ph.D. programs, where he contributed significantly to projects on power flow control, PWM-based induction motor drives, and electric vehicle charging infrastructures. Additionally, Dr. Yadav has participated in and facilitated numerous workshops and FDPs, staying current with evolving trends in energy storage systems, grid integration, and artificial intelligence in engineering applications. His leadership in research-backed teaching exemplifies a balanced and forward-thinking academic professional, well-versed in preparing future-ready engineers.

Research Interest

Dr. Gaurav Yadav’s research interests are centered on power electronics, electric vehicle technologies, renewable energy systems, and intelligent control strategies. His doctoral research addressed grid-interactive electric vehicle (EV) chargers, aiming to enhance system efficiency, stability, and adaptability under fluctuating grid conditions. He is particularly interested in integrating advanced control architectures such as D-QSG, SOGI, fuzzy logic, and adaptive filtering using AI/ML algorithms to improve power quality and system response. Dr. Yadav’s work also includes the design and simulation of DC-DC converters, bidirectional charging systems, and wireless charging mechanisms. His keen interest in Hardware-in-the-Loop (HIL) testing, real-time systems, and fault-tolerant designs places him at the intersection of cutting-edge research and industrial relevance. He continues to explore topics like V2G (Vehicle-to-Grid) systems, regenerative braking, battery management, and misalignment compensation in wireless power transfer. Additionally, he investigates the role of intelligent data analysis and deep learning in improving energy systems. Through interdisciplinary research and collaborations, Dr. Yadav seeks to contribute to the development of sustainable, smart, and efficient energy infrastructure for future mobility and power systems.

Research Skills

Dr. Gaurav Yadav possesses a diverse and highly applicable skill set essential for advanced research in electrical and power electronics engineering. He is proficient in programming languages such as C, Java, and Python, and is well-versed in simulation tools including MATLAB/Simulink, PLECS, PSIM, and ControlDesk. His hardware expertise covers platforms like dSPACE CP1104, OPAL-RT OP4510, and regenerative grid simulators, which he uses for real-time control, HIL simulations, and performance validation. Dr. Yadav has successfully utilized LabVIEW for automated test setups and data acquisition in converter testing. He demonstrates deep understanding of machine learning and AI tools, with hands-on application in pattern recognition, statistical analysis, and soft computing for energy systems. He has designed and fabricated custom PCBs using Altium Designer and EasyEDA and worked extensively on digital signal processors like TI C2000 F28379D. His experience extends to IoT-based system integration, robotics, and smart energy data mining. Additionally, he is adept at using Code Composer Studio and AUTOCAD Electricals for development and documentation. These technical competencies, coupled with his practical experience, position him as a skilled researcher capable of leading innovative and industry-relevant engineering projects.

Awards and Honors

Dr. Gaurav Yadav’s contributions to research and academia have been widely recognized through prestigious publications and competitive programs. He has successfully published multiple high-impact journal articles, including Q1 and Q2 indexed papers in journals such as Computers and Electrical Engineering, Journal of Energy Storage, and Measurement Science and Technology. His 2025 article on stabilizing DC bus voltage using CEEMDAN-XGBoost was published in a Q1 journal with an impact factor of 4.9. He has also delivered research findings at leading IEEE international conferences such as ICPEICES, SEFET, PEDES, and ELEXCOM. His active engagement in reputed FDPs and workshops organized by IITs, NITs, and other premier institutions highlights his commitment to continuous learning and collaborative development. He has been a participant in government-sponsored programs like GIAN and SERB-funded Karyashala, underscoring his recognition in India’s research ecosystem. Notably, he qualified the GATE exam in 2018, showcasing early academic excellence. His project-based recognitions and technical participation in multidisciplinary events further emphasize his standing as a leading young researcher in electric vehicle technology and power electronics systems.

Conclusion

Dr. Gaurav Yadav exemplifies the modern academic professional, seamlessly integrating teaching, research, and technology development in the field of electrical engineering. With a focus on electric vehicle infrastructure, intelligent power converters, and real-time embedded systems, he continues to push the frontiers of applied energy research. His journey from foundational education to impactful research publications and hands-on engineering projects reflects a commitment to solving real-world challenges through innovation. As an Assistant Professor at SRM University, he actively contributes to curriculum enhancement, student mentorship, and collaborative research with industry and academia alike. His technical acumen, proven by his extensive toolkit of simulation, programming, and hardware capabilities, complements his research focus on sustainable energy systems and grid modernization. Dr. Yadav’s consistent participation in high-level conferences, training programs, and journal authorship illustrates a dedication to growth, dissemination of knowledge, and global collaboration. Looking ahead, he is poised to make significant strides in the development of intelligent and efficient power systems, playing a pivotal role in advancing electric mobility and green energy solutions both nationally and internationally.

Publications Top Notes

1. Title: A 3.3 kW Modified LLC Resonant Converter for Grid-Tied EV System Under Wide Voltage Range
Authors: M. Ansari, G. Yadav, M. Singh
Year: 2023
Citations: 14

2. Title: Modified Bidirectional LLC Converter for Electric Vehicle Application
Authors: M. Ansari, G. Yadav, M. Singh
Year: 2023
Citations: 13

3. Title: Robust Control Design for Grid-Tied EV System with SOGI-Based Architecture in Wide Voltage Range Scenarios
Authors: G. Yadav, M. Singh
Year: 2023
Citations: 11

4. Title: Unveiling the Superiority: Comparative Analysis of ANFIS, FOPID, and PI Controllers in Grid-Connected EV Systems for G2V/V2G Applications
Authors: G. Yadav, M. Singh
Year: 2023
Citations: 11

5. Title: Validation of a Parameter Design Methodology for Air-Core Two-Coil WPT System with Multi-Resonant LC Compensation
Authors: G. Yadav, M. Singh
Year: 2023
Citations: 7

6. Title: Performance Analysis of 3-Phase Active Front End PWM Rectifier for Air-Core Two-Coil WPT System Configuration
Authors: A. Singh, G. Yadav, M. Singh
Year: 2023
Citations: 5

7. Title: Real-Time Investigation of Grid-Interactive EV Charger with Two-Stage Bidirectional Converter Under Wide Voltage Range Scenarios
Authors: G. Yadav, M. Singh
Year: 2024
Citations: 4

8. Title: Optimizing Power Quality in EV Chargers Using Advanced Quadrature Signal Generators and AI‐Driven Adaptive Filtering
Authors: G. Yadav, M. Singh
Year: 2025
Citations: 2

9. Title: CNISOGI and LLMF Based Controller Design for Grid-Interactive EV Chargers in Wide Voltage Range Scenarios
Authors: G. Yadav, M. Singh
Year: 2024
Citations: 2

10. Title: Enhancing Wireless Charging for Electric Vehicles: A Comparative Study of Coil Designs and Their Impact on Power Transfer Efficiency
Authors: H. Pandey, K.K. Singh, S. Sakalkar, G. Yadav, M. Singh
Year: 2024
Citations: 2

Likun Gao | Energy Sustainability | Best Researcher Award

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Prof. Dr. Likun Gao | Energy Sustainability | Best Researcher Award

Professor at Northeast forestry University, China

Professor Likun Gao is a pioneering researcher in the interdisciplinary field of advanced wood-based materials, serving at the School of Materials Science and Engineering, Northeast Forestry University, China. His work is at the forefront of integrating wood science with cutting-edge nanotechnology, particularly focusing on wood nanogenerators, electrocatalytic wood, and multifunctional self-healing materials. With a robust foundation in wood science and engineering, he has rapidly ascended as an influential academic voice in materials research. His innovations have practical implications for sustainable energy, water splitting, environmental sensing, and extreme-condition applications. Professor Gao has authored over 40 peer-reviewed publications in premier journals such as Chem. Soc. Rev., PNAS, Energy & Environmental Science, and Advanced Functional Materials. His contributions include several highly cited papers and journal covers, affirming the novelty and impact of his research. He also holds multiple patents and has co-authored important book chapters related to electrocatalysis and wood-based functional materials. Recognized through prestigious programs like China’s National Ten Thousand Talents and the CAST Young Elite Scientists Sponsorship, Gao exemplifies the next generation of scientific leadership in sustainable and intelligent materials. His commitment to interdisciplinary collaboration and scientific innovation positions him as a transformative figure in applied materials science.

Professional Profile

Education

Likun Gao’s educational journey reflects a deep and consistent focus on wood science and materials engineering, beginning with a Bachelor of Science in Wood Science and Engineering from Northeast Forestry University in 2014. Demonstrating early academic promise, he pursued his doctoral studies at the same institution, earning a Ph.D. in Wood Science and Technology in 2020. His doctoral research was marked by a growing interest in integrating biological materials with nanotechnology to produce functional composites. As part of his Ph.D. program, Gao was selected for an international research stint at the Georgia Institute of Technology, USA, from 2018 to 2020. There, he expanded his expertise in materials science and engineering, engaging with global experts and exploring the intersection of nanomaterials and bio-based resources. This international exposure enriched his methodological rigor and allowed him to contribute to several high-impact collaborations. His academic background forms the backbone of his innovative research portfolio and underpins his current leadership in multifunctional wood-based materials. The comprehensive, cross-continental training he received has equipped him with a unique perspective on the potential of sustainable materials in modern technology.

Professional Experience

Since March 2021, Professor Likun Gao has been serving as a full Professor at Northeast Forestry University’s School of Materials Science and Engineering. In this role, he leads a dynamic research group exploring the frontier of wood nanotechnology and sustainable energy materials. Building on his doctoral and international postdoctoral experiences, he has established an impressive track record of research output and innovation. Under his leadership, the lab has produced over 40 peer-reviewed journal articles, numerous high-impact papers, and several patents. His collaborations span interdisciplinary teams focused on energy conversion, smart materials, and environmental responsiveness. In addition to his scientific output, Professor Gao is also dedicated to mentoring students and early-career researchers. He regularly supervises graduate students, fostering an environment of creativity, innovation, and academic rigor. His teaching responsibilities include advanced courses in nanomaterials, wood science, and electrocatalysis. Beyond academic instruction, Gao actively contributes to national and international research projects and often serves as a reviewer for top-tier journals. His role as a professor is multifaceted—blending research, mentorship, collaboration, and academic service—which has rapidly elevated his stature in China’s scientific community and beyond.

Research Interest

Professor Likun Gao’s research interests lie at the convergence of sustainable materials science and advanced nanotechnology, focusing particularly on wood-derived functional materials. One of his core areas is the development of wood nanogenerators, including piezoelectric and triboelectric devices, as well as cellulose-based systems. These innovations provide new pathways for harvesting renewable energy from environmental sources, especially in flexible and wearable electronics. Another major focus is electrocatalytic wood, where Gao engineers wood-based single-atom electrocatalysts for applications like water splitting, targeting efficient and green hydrogen production. He also pioneers in multifunctional, self-healing wood-based materials that exhibit unique properties such as photothermal responsiveness, anti-icing, sensing, and environmental adaptability. These materials are particularly promising for use in extreme weather conditions and smart infrastructure. His research approach is distinctly bioinspired, aiming to replicate or enhance natural functionalities through molecular-level material engineering. By leveraging the structural anisotropy and hierarchical nature of wood, Gao is able to design novel platforms for catalysis and energy generation. His interests also span surface reconstruction mechanisms, dynamic active-site modulation, and intelligent material design, reflecting a deep commitment to creating smart, eco-friendly technologies.

Research Skills

Professor Gao possesses a robust and multifaceted skill set that bridges wood science, nanotechnology, materials engineering, and electrocatalysis. His expertise includes the fabrication and functionalization of wood-derived nanogenerators, capable of converting mechanical energy into electrical energy through triboelectric and piezoelectric effects. He is also skilled in the design and synthesis of single-atom electrocatalysts embedded in wood substrates, which are essential for enhancing the kinetics of water-splitting reactions. Gao’s technical toolkit includes advanced material characterization techniques such as SEM, TEM, XPS, Raman spectroscopy, and in situ operando methods, which he uses to explore catalytic mechanisms and interface dynamics. Additionally, he has substantial experience in surface modification strategies to imbue wood-based composites with photothermal, hydrophobic, and self-healing properties. His lab routinely integrates superhydrophobic coatings, carbonization techniques, and atomic doping to create responsive multifunctional materials. Professor Gao also has notable strengths in writing scientific publications, securing research grants, and patenting novel technologies. His collaborative work with international teams underscores his ability to work across disciplines and cultural contexts, making him an agile and resourceful scientist in the global research landscape.

Awards and Honors

Professor Likun Gao has garnered widespread recognition for his pioneering work in wood-based functional materials, receiving numerous prestigious awards that underscore his contributions to scientific innovation and academic excellence. In 2023, he was selected for China’s National Ten Thousand Talents Program for High-level Young Talents—one of the country’s highest honors for young researchers. A year prior, in 2022, he was awarded the Young Elite Scientists Sponsorship Program by the China Association for Science and Technology (CAST), an accolade reserved for researchers demonstrating extraordinary potential in advancing science and technology. He also received the Excellent Young Scholar Award from the Natural Science Foundation of Heilongjiang Province, recognizing his outstanding research in applied materials. Professor Gao has contributed to 3 book chapters and authored over 40 high-quality journal articles, several of which were highlighted as ESI Highly Cited Papers, journal cover stories, or Hot Papers. His intellectual property portfolio includes five patents, reflecting a commitment to practical innovation. These honors collectively affirm his leadership in the field and serve as milestones in a career defined by creativity, scientific rigor, and impactful problem-solving.

Conclusion

In summary, Professor Likun Gao stands as a dynamic and forward-thinking figure in the fields of materials science and wood-based nanotechnology. His research bridges the gap between nature and cutting-edge engineering, offering solutions for sustainable energy, smart materials, and functional composites. With a strong academic foundation, international exposure, and a commitment to interdisciplinary research, Gao has built a formidable reputation as a scientist, educator, and innovator. His work is not only scientifically profound but also socially and environmentally relevant, addressing global challenges like clean energy, climate resilience, and sustainable resource use. Through a combination of technical expertise, scholarly productivity, and leadership, Professor Gao has earned national and international recognition. As a young academic leader, he continues to push the boundaries of material innovation while fostering the next generation of researchers. With a track record of high-impact publications, prestigious awards, and cross-disciplinary collaboration, he is well-positioned to influence both academic advancements and industrial applications. The trajectory of his career reflects a deep-seated passion for discovery and a vision for materials that are both intelligent and sustainable.

Publications Top Notes

  1. Title: Wood-based triboelectric nanogenerator integrated with superhydrophobicity and photothermal-induced self-healing for high-temperature and high-humidity environment
    Authors: M. Wang, X. Li, D. Lv, P. He, C. Yang, J. Li, L. Gao*
    Year: 2025

  2. Title: High-Loading Single Atoms via Hierarchically Porous Nanospheres for Oxygen Reduction Reaction with Superior Activity and Durability
    Year: 2025

  3. Title: Self-supported N-doped carbon-coupled Ni–Co binary nanoparticle electrodes derived from bionic design of wood cell walls for durable overall water splitting
    Authors: C. Yang, R. Jin, Z. Liu, S. Li, D. Lv, J. Liu, J. Li, Z. Lin*, L. Gao*
    Journal: Journal of Materials Chemistry A
    Year: 2024

  4. Title: Collaborative integration of ultrafine Fe₂P nanocrystals into Fe, N, P-codoped carbon nanoshells for highly-efficient oxygen reduction
    Year: 2023
    Citations: 56