Guanyue Sun | Advanced Materials Engineering | Young Scientist Award

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Dr. Guanyue Sun | Advanced Materials Engineering | Young Scientist Award

Dezhou university | China

Dr. Guanyue Sun is an emerging scholar in the field of electrical engineering, known for his expertise in high voltage electricity, insulation technology, and smart grid systems. His professional journey has been marked by dedication to both teaching and advanced research, contributing valuable insights to the development of power systems that are more reliable, efficient, and sustainable. As a lecturer and active researcher, he has consistently demonstrated a capacity to bridge theoretical knowledge with applied engineering solutions. His involvement in academic societies, editorial boards, and collaborative projects positions him as a young leader whose work is shaping the future of electrical engineering.

Professional Profile

Scopus

ORCID

Education

Dr. Guanyue Sun pursued a Master’s degree in Electrical Engineering at Xinjiang University, where he developed a strong foundation in power electronics, circuit analysis, and high-voltage technology. He later completed his doctoral studies at the School of Electrical and Electronics at Shandong University of Technology, where his research centered on advanced materials for power systems, smart grid design, and surge arrester technology. His academic training instilled in him both technical depth and a broad perspective, preparing him to address complex challenges in modern energy infrastructure.

Experience

As a lecturer at Texas College, Dr. Guanyue Sun integrates academic teaching with cutting-edge research, ensuring that his students are exposed to both classical engineering principles and the latest advancements in the field. He has led and contributed to several research projects, including studies on ZnO varistors, non-destructive testing of cable accessories, and surge arrester performance in UHV DC systems. His service extends beyond teaching; he is an active member of the China Electrotechnical Society and professional committees on industrial robotics and intelligent equipment. His editorial work with young boards of respected journals highlights his commitment to fostering academic exchange and advancing scholarly communication.

Research Interests

Dr. Guanyue Sun’s research interests cover a wide range of topics within electrical engineering and materials science. He is particularly engaged in the study of high-gradient low-residual voltage surge arresters and their applications in UHV DC networks. His work explores new materials for ZnO varistors to improve smart grid arresters, fault characteristics in high-voltage power cables, and innovative methods for online detection of ground transformer operating conditions. He has also delved into the analysis of insulation shielding in high-voltage cables, silicone rubber composites for DC applications, and novel nanogenerator materials. His investigations reveal a multidisciplinary approach, integrating power systems, materials engineering, and computational modeling.

Awards

Dr. Guanyue Sun has received recognition for his innovative research and technical contributions, which address critical challenges in electrical insulation and smart grid systems. His scientific achievements and patents demonstrate not only originality but also practical application, serving both academic and industrial needs. The Young Scientist Award nomination reflects his growing influence in the field, recognizing his ability to combine theoretical rigor with practical problem-solving. This honor underscores his potential as a next-generation leader in electrical engineering research.

Publications

Dr. Guanyue Sun has authored several influential publications in high-impact international journals, each contributing to the advancement of electrical engineering and materials science. His works include:

  • Tittle: Influences of storage pool on strain and mechanical uniformity of Mg-Gd-Y-Zn-Zr sheet produced by rotary forward extrusion
    Published on: 2025

  • Tittle: Effect of laminate channel width on the performance of MgAl-layered double hydroxide film-based nanogenerators driven by water evaporation
    Published on: 2025

  • Tittle: Study of the Effect of Ca on the Electrical Properties of SnO2 Varistor Based on the Voronoi Model
    Published on: 2024

  • Tittle: Simulation on paraffin melting enhancement in shell-tube phase change thermal storage equipment induced by natural convection
    Published on: 2024

  • Tittle: Numerical modeling and simulation of the flow drill screw process for joining A365 and A6N01 multi-material joints
    Published on: 2023

  • Tittle: Liquid phase sintering of SnO2 varistors for stability improvement
    Published on: 2023

  • Tittle: Improving Stability and Low Leakage Current of ZnO Varistors Ceramics
    Published on: 2023

Conclusion

Through his research, teaching, patents, and active engagement in professional societies, Dr. Guanyue Sun has established himself as a forward-looking scholar with a deep commitment to advancing electrical engineering. His work contributes to both academic knowledge and industrial application, addressing pressing challenges in power grid reliability, material stability, and high-voltage system safety. His nomination for the Young Scientist Award is a testament to his achievements, his innovative spirit, and his potential to make lasting contributions to global energy and engineering solutions.

Neetu Yadav | Materials Science | Best Researcher Award

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Ms. Neetu Yadav | Materials Science | Best Researcher Award

Department of Physics, University of Lucknow | India

Neetu Yadav is a passionate and dedicated researcher specializing in Material Science, with a keen interest in humidity and gas sensors. Born on April 18, 1996, in India, she currently resides in Pantnagar, Uttarakhand. Her academic journey, combined with a growing list of publications, reflects her commitment to advancing sensor technology through nanomaterials and transition metal oxides. With excellent research, communication, and analytical skills, Neetu brings a multidisciplinary approach to scientific inquiry, bridging physics, chemistry, and materials engineering.

Professional profile👤

Scopus

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ORCID

Strengths for the Awards✨

Ms. Neetu Yadav exemplifies the profile of an emerging researcher in the domain of material science and sensor technology. Her ongoing Ph.D. research at the University of Lucknow focuses on transition metal oxides for gas and humidity sensing applications, a field of significant relevance to environmental monitoring and industrial safety. Despite being at an early stage of her career, she has already co-authored 10+ peer-reviewed publications in reputable journals such as Applied Surface Science, International Journal of Hydrogen Energy, and Physica E, with multiple articles indexed in Scopus and cited internationally.

Her collaborative projects and contributions to interdisciplinary studies involving nanostructures, thin films, irradiation effects, and sensor fabrication underscore her technical competence. She has also co-authored book chapters published by Springer and other academic platforms, indicating her global academic reach. Moreover, her participation in national and international conferences, workshops, and symposiums, as well as involvement in outreach activities like essay competitions and inter-university sports, highlights her holistic development.

🎓 Education

Neetu Yadav is presently pursuing her Ph.D. in Material Science from the Department of Physics, University of Lucknow, focusing on the synthesis and characterization of transition metal oxides for sensor applications. She completed her Master’s in Physics (2019) from the same university with a second division. Prior to that, she earned her B.Sc. in Physics, Chemistry, and Mathematics (2017) from Kumaun University, securing a first division. She also completed her Intermediate and High School from Rajeev Gandhi Navodaya Vidhyalaya, both with top ranks.

🧪 Experience

Neetu has developed hands-on experience through intensive lab work, workshops, and conferences. Her current research explores optical and structural properties of advanced materials, focusing on their applications in gas and humidity sensing. She has actively participated in experimental setups involving thin-film deposition, surface modification via ion irradiation, and nanomaterial synthesis — enriching her technical proficiency and collaborative skills.

🔍 Research Interests On Materials Science

Her research interests center around the synthesis and structural characterization of transition metal oxides, sensor device fabrication, thin films, and ion beam irradiation effects. She aims to enhance sensor performance for environmental monitoring by manipulating nano-scale properties of oxides like MoO₃, WO₃, SnO₂, and CuO. Her interdisciplinary curiosity also extends into nanotechnology’s societal and ethical dimensions. 📊

🏆 Awards & Recognition

Neetu received an Honorable Mention in the All India Essay Writing Event (2016), organized by Shri Ram Chandra Mission & the UN Information Centre. She has also earned accolades in district-level and inter-parliamentary volleyball tournaments. Her involvement in academic events and diverse interests from chess to painting reflect a well-rounded personality.

📚 Publications

Below are selected publications showcasing Neetu Yadav’s contributions to materials science and sensor technology:

  1. Gamma irradiation induced surface modification of V₂O₅ thin films, Applied Surface Science, 2025 — cited by researchers for its relevance to sensor enhancement mechanisms.

  2. Analysis of nanostructured Bi₂O₃-doped MoO₃, Materials Today: Proceedings, 2024 — contributed to optical and humidity sensor evaluation.

  3. Room temperature LPG sensing of Ag-doped CuO:SnO₂, Physica E, 2024 — investigated gas sensing efficiency.

  4. Effects of 100 MeV Ni⁷⁺ ion irradiation on MoO₃ thin films, Nuclear Instruments and Methods B, Oct 2024.

  5. Enhanced hydrogen gas sensing with Ag-doped WO₃, International Journal of Hydrogen Energy, 2023.

  6. SnO₂@ZnO based chemiresistor for Ammonia sensing, Materials Chemistry and Physics, Dec 2023.

  7. Yttrium-Cerium oxide sensor for H₂ detection, Engineering Proceedings, 2023.

  8. NiO and SnO₂ nanoparticles for humidity sensing, Interactions, 2022.

  9. XRD studies of sol-gel derived SnO₂, Int. Conf. on Materials Processing & Applications, 2023.

  10. 120MeV Ni⁷⁺ irradiation effects on WO₃, Journal of Alloys and Compounds, 2025.

📘 Book Chapters:

  • Influence of Temperature on Humidity Sensor (2023), in IIP Series Vol. 3.

  • Nanotechnology: Social Acceptance & Privacy (2024), Springer.

  • Role of Nanotechnology in Sensor Fabrication (2023), IIP Series Vol. 3.

🧠 Conclusion

Neetu Yadav stands out as a promising researcher whose work embodies academic rigor, technical innovation, and societal relevance. Her deep focus on material-based sensors and her contributions through high-impact publications and active participation in global scientific discussions make her an outstanding candidate for the “Best Researcher Award” in Forensic Scientist Awards. 🌟 Her fusion of scientific creativity, hands-on experimentation, and cross-disciplinary collaboration demonstrates not only academic excellence but a steadfast commitment to real-world impact.