Prof. Dr. Guy Le Lay | Materials for 5G and Beyond | Outstanding Scientist Award

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Prof. Dr. Guy Le Lay | Materials for 5G and Beyond | Outstanding Scientist Award

Professor Emeritus | Aix-Marseille University | France

Prof. Dr. Guy Le Lay, Professor Emeritus at Aix-Marseille University, is an eminent physicist whose pioneering contributions to Materials for 5G and Beyond have reshaped the understanding of low-dimensional quantum systems. He earned his engineering degree from the School of Mines Nancy, followed by doctorates in Engineering and Physics from the University of Provence. His professional journey includes leadership in international collaborations with CNES, ESA, NASA, and major scientific committees. His groundbreaking research on silicene, germanene, and other Xenes has propelled Materials for 5G and Beyond into new scientific frontiers, influencing the evolution of nanostructures and topological quantum materials. Recognized globally, his honors include the IUVSTA Prize for Science, the Fernand Holweck Medal and Prize, and fellowships from Nagoya University and the Japan Society for the Promotion of Science. His research expertise encompasses atomic-scale surface science, quantum materials, and advanced interface engineering key enablers for Materials for 5G and Beyond. With deep proficiency in synchrotron radiation, surface spectroscopy, and nanoscale material design, he remains a visionary in the physics of Materials for 5G and Beyond. His academic excellence is mirrored by leadership in international symposia and scientific advisory roles promoting Materials for 5G and Beyond across global platforms. Prof. Dr. Guy Le Lay’s enduring legacy continues to inspire innovation in Materials for 5G and Beyond applications and quantum device engineering. Google Scholar profile of 19028 Citations, 59 h-index, 171 i10-index.

Profile: Google Scholar

Featured Publications

1. Vogt, P., De Padova, P., Quaresima, C., Avila, J., Frantzeskakis, E., Asensio, M. C., et al. (2012). Silicene: Compelling experimental evidence for graphenelike two-dimensional silicon. Physical Review Letters, 108(15), 155501.

2. Dávila, M. E., Xian, L., Cahangirov, S., Rubio, A., & Le Lay, G. (2014). Germanene: A novel two-dimensional germanium allotrope akin to graphene and silicene. New Journal of Physics, 16(9), 095002.

3. Aufray, B., Kara, A., Vizzini, S., Oughaddou, H., Léandri, C., Ealet, B., & Le Lay, G. (2010). Graphene-like silicon nanoribbons on Ag (110): A possible formation of silicene. Applied Physics Letters, 96(18).

4. De Padova, P., Quaresima, C., Ottaviani, C., Sheverdyaeva, P. M., Moras, P., et al. (2010). Evidence of graphene-like electronic signature in silicene nanoribbons. Applied Physics Letters, 96(26).

5. Le Lay, G. (1983). Physics and electronics of the noble-metal/elemental-semiconductor interface formation: A status report. Surface Science, 132(1–3), 169–204.

Dr. Liping Gong | Mechanical engineering | Best Researcher Award

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Dr. Liping Gong | Mechanical engineering | Best Researcher Award

Associate Research Fellow | University of Wollongong | Australia

Dr. Liping Gong is a distinguished researcher in the field of mechanical engineering, demonstrating exceptional expertise in advanced materials, vibration control, and energy harvesting systems. He earned his Doctor of Philosophy in mechanical engineering from the University of Wollongong, Australia, where his work received the Examiners’ Commendation for Outstanding Thesis. His academic foundation in mechanical engineering was strengthened by a Bachelor’s degree in Engineering Mechanics from Chang’an University, China. As a Postdoctoral Research Fellow, he has made significant strides in developing shear-stiffening phononic crystals through stereolithography for vibration and acoustic applications, alongside mentoring students in material characterization and finite element modeling—core skills in mechanical engineering research. His contributions span the design of magnetorheological elastomers, liquid metal-based nanogenerators, and intelligent materials for energy harvesting, reflecting innovation across various mechanical engineering domains. Dr. Gong’s research in mechanical engineering has been published in top-tier journals such as Advanced Materials, Nano Energy, and Smart Materials and Structures. His dedication has been recognized with the Best Oral Presentation Award at international mechanical engineering conferences. His research skills encompass experimental design, data analysis, material fabrication, and computational modeling—crucial aspects of mechanical engineering advancement. With deep involvement in reviewing for international journals, Dr. Gong continues to contribute to global mechanical engineering excellence. His professional journey highlights a commitment to innovation, interdisciplinary collaboration, and scientific impact within mechanical engineering.Google Scholar profile of 301 Citations, 7 h-index, 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Wang, S., Gong, L., Shang, Z., Ding, L., Yin, G., Jiang, W., Gong, X., & Xuan, S. (2018). Novel safeguarding tactile e‐skins for monitoring human motion based on SST/PDMS–AgNW–PET hybrid structures. Advanced Functional Materials, 28(18), 1707538.

2. Zhang, Q., Lu, H., Yun, G., Gong, L., Chen, Z., Jin, S., Du, H., Jiang, Z., & Li, W. (2024). A laminated gravity‐driven liquid metal‐doped hydrogel of unparalleled toughness and conductivity. Advanced Functional Materials, 34(31), 2308113.

3. Wu, H., Gong, N., Yang, J., Gong, L., Li, W., & Sun, S. (2024). Investigation of a semi-active suspension system for high-speed trains based on magnetorheological isolator with negative stiffness characteristics. Mechanical Systems and Signal Processing, 208, 111085.

4. Gong, L., Xuan, T., Wang, S., Du, H., & Li, W. (2023). Liquid metal based triboelectric nanogenerator with excellent electrothermal and safeguarding performance towards intelligent plaster. Nano Energy, 109, 108280.

5. Jin, S., Yang, J., Sun, S., Deng, L., Chen, Z., Gong, L., Du, H., & Li, W. (2023). Magnetorheological elastomer base isolation in civil engineering: a review. Journal of Infrastructure Intelligence and Resilience, 2(2), 100039.

Assoc. Prof. Dr. Sadia Ameen | Materials Science | Outstanding Scientist Award

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Assoc. Prof. Dr. Sadia Ameen | Materials Science | Outstanding Scientist Award

Associate Professor | Jeonbuk National University | South Korea

Assoc. Prof. Dr. Sadia Ameen is a distinguished academic in Materials Science with extensive contributions to nanomaterials, thin films, nanocomposites, optoelectronic devices, catalysts, biosensors, supercapacitors, and energy storage systems. With strong educational foundations culminating in a doctorate in Materials Science, she has advanced knowledge through innovative synthesis and characterization techniques such as PECVD, sol-gel, hydrothermal, and solid-state methods. Her professional career includes roles as Associate Professor at Jeonbuk National University, Republic of Korea, and Adjunct Visiting Associate Professor at La Trobe University, Australia, demonstrating her global engagement in Materials Science. Her research interests span organic semiconductors, perovskite solar cells, nanostructured materials for energy and environmental applications, and device fabrication, with over 160 SCI/SCIE publications as author and corresponding author. She has received multiple recognitions and serves as a reviewer and editorial board member for international journals in Materials Science. Her research skills include nanomaterial synthesis, electrochemical analysis, device fabrication, and advanced characterization. Through leadership in collaborative projects, she has strengthened international scientific networks. In conclusion, Assoc. Prof. Dr. Sadia Ameen’s career embodies excellence in Materials Science, integrating innovative research, international collaboration, and impactful publications, highlighting her as a globally recognized expert advancing sustainable technologies and applications through Materials Science. Her Google Scholar citations 6759, h-index 42, i10-index 121, showcasing measurable research impact.

Profiles: Google Scholar | ORCID

Featured Publications

1. Sharma, J. K., Akhtar, M. S., Ameen, S., Srivastava, P., & Singh, G. (2015). Green synthesis of CuO nanoparticles with leaf extract of Calotropis gigantea and its dye-sensitized solar cells applications. Journal of Alloys and Compounds, 632, 321–325.

2. Ameen, S., Rub, M. A., Kosa, S. A., Alamry, K. A., Akhtar, M. S., Shin, H. S., Seo, H. K., … (2016). Perovskite solar cells: Influence of hole transporting materials on power conversion efficiency. ChemSusChem, 9(1), 10–27.

3. Malik, S., Singh, J., Goyat, R., Saharan, Y., Chaudhry, V., Umar, A., Ibrahim, A. A., … (2023). Nanomaterials-based biosensor and their applications: A review. Heliyon, 9(9), e19934.

4. Ameen, S., Akhtar, M. S., Seo, H. K., Kim, Y. S., & Shin, H. S. (2012). Influence of Sn doping on ZnO nanostructures from nanoparticles to spindle shape and their photoelectrochemical properties for dye sensitized solar cells. Chemical Engineering Journal, 187, 351–356.

5. Ameen, S., Seo, H. K., Akhtar, M. S., & Shin, H. S. (2012). Novel graphene/polyaniline nanocomposites and its photocatalytic activity toward the degradation of rose Bengal dye. Chemical Engineering Journal, 210, 220–228.

Ran Wang | Materials Science | Women Researcher Award

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Ms. Ran Wang | Materials Science | Women Researcher Award

Student at Beijing Institute of Technology, China

Wang Ran is a dedicated master’s student in Materials Science and Engineering at Beijing Institute of Technology. She completed her undergraduate studies at Shandong University. With a keen interest in absorbing materials, she is committed to advancing research in this field. Though at an early stage in her academic journey, she is eager to contribute to scientific advancements. Wang Ran aspires to explore innovative materials with potential applications in energy absorption and electromagnetic shielding. Her passion for scientific discovery drives her ambition to make significant contributions to materials engineering. She is applying for the Women Research Award or Young Scientist Award. 🌟

Professional Profile 

Education & Experience 📚🔍

  • 🎓 Master’s Degree (Ongoing) – Beijing Institute of Technology, Materials Science and Engineering
  • 🎓 Bachelor’s Degree – Shandong University, Materials Science and Engineering

Professional Development 📖🔬

Wang Ran is in the early stages of her academic career, focusing on developing expertise in absorbing materials. She actively engages in coursework, laboratory experiments, and independent research projects to build a strong foundation in material science. Passionate about innovation, she continuously explores the latest advancements in materials engineering. Though she has not yet published any journals or patents, she is eager to collaborate with experts in her field. Her long-term goal is to contribute groundbreaking research that enhances the performance of absorbing materials in practical applications such as stealth technology and electromagnetic interference shielding. 🚀

Research Focus🏗️🔬

Wang Ran’s research interests lie in the field of absorbing materials, a crucial area in materials science that plays a significant role in energy dissipation, stealth technology, and electromagnetic shielding. She is particularly interested in developing new materials that can efficiently absorb electromagnetic waves and reduce interference in electronic devices. By studying the structural and compositional properties of these materials, she aims to optimize their absorption efficiency and enhance their performance in real-world applications. Her research has potential implications in defense, aerospace, and communication industries, where advanced absorbing materials are essential for improving stealth and signal integrity. 📡🛡️

Awards & Honors 🏆🎖️

  • 🌟 Nominee – Women Research Award (2025)
  • 🌟 Nominee – Young Scientist Award (2025)
  • 🎓 Bachelor’s Degree Completion – Shandong University
  • 📖 Master’s Degree Pursuit – Beijing Institute of Technology

Publication Top Notes

  • “Resonantly pumped acousto-optic Q-switched Er:YAG lasers at 1617 and 1645 nm”

    • Authors: R. Wang, Q. Ye, C. Gao
    • Journal: Applied Optics, 2014
    • Citations: 5
    • Summary:
      • Discusses the development of acousto-optic Q-switched Er:YAG lasers emitting at 1617 nm and 1645 nm.
      • The lasers are resonantly pumped, enhancing efficiency.
      • These wavelengths are valuable for medical, LIDAR, and optical communication applications.

  • “Single-frequency operation of a resonantly pumped 1.645μm Er:YAG Q-switched laser”

    • Authors: R. Wang, Q. Ye, Y. Zheng, M. Gao, C. Gao
    • Type: Conference Paper
    • Citations: 13
    • Summary:
      • Focuses on achieving single-frequency operation of an Er:YAG laser at 1645 nm.
      • Uses resonant pumping and a Q-switching technique for better performance.
      • Suitable for high-precision applications such as spectroscopy and atmospheric sensing.

Conclusion

While Wang Ran shows potential in her research field, she currently lacks the extensive academic contributions and professional engagement necessary to compete for a “Best Researcher” or “Women Researcher” award. She would be a more suitable candidate for a “Young Scientist Award” in the future, provided she enhances her publication record, citations, collaborations, and industry engagement.

Mr. Godfrey Shayo | Material Science | Best Researcher Award

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Mr. Godfrey Shayo | Material Science | Best Researcher Award

Mr. Godfrey Shayo, Chemistry Department, Mkwawa university College of Education, Tanzania

Godfrey Michael Shayo is an Assistant Lecturer at Teofilo Kisanji University in Tanzania. He holds a Bachelor’s Degree in Education Science from Mkwawa University College of Education (MUCE) and a Master’s Degree in Chemistry from the University of Dar es Salaam. With a strong research background in Material Science, Water Purification, Material Characterisation, and Nanotechnology, he has published several articles in reputable journals and actively participates in international conferences. Mr. Shayo is dedicated to advancing scientific research and education in his field.

PROFILE

Orcid

Educational Details

Godfrey Michael Shayo holds a Bachelor’s Degree in Education Science (B. Ed. Sc.) from the University of Dar es Salaam, Mkwawa University College of Education (MUCE), and a Master’s Degree in Chemistry (M. Sc. Ed) from the University of Dar es Salaam. Currently, he serves as an Assistant Lecturer in the Chemistry Department at Teofilo Kisanji University. Mr. Shayo has published several research articles and has actively participated in international conferences, including two at Mkwawa University and the Zanzibar Water Conference in 2023. His work reflects a commitment to advancing knowledge in his field.

Research and Innovations

Godfrey Michael Shayo has completed five research projects, primarily focusing on Material Science, Water Purification, Material Characterisation, and Nanotechnology. His work is recognized with a citation index of 27, highlighting the impact of his research in the academic community. He has contributed to several respected journals, including the Bulletin of the National Research Centre, Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, Tanzania Journal of Science, and HELIYON. He has also been involved in consultancy work, notably with the Water Purification Project at the University of Dar es Salaam. While he has not published any books or patents, he holds several editorial appointments.

Top Notable Publications

“Preparation Methods, Applications, Toxicity and Mechanisms of Silver Nanoparticles as Bactericidal Agent and Superiority of Green Synthesis Method”
Heliyon, August 2024
DOI: 10.1016/j.heliyon.2024.e36539
Source: Crossref

“Water-based Technologies for Improving Water Quality at the Point of Use: A Review”
Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 2024
DOI: 10.1002/WNAN.1940
Source: Web of Science Researcher Profile Sync

“Severity of Waterborne Diseases in Developing Countries and the Effectiveness of Ceramic Filters for Improving Water Quality”
Bulletin of the National Research Centre, July 24, 2023
DOI: 10.1186/s42269-023-01088-9
Source: Crossref