Jiaojiao Li | Advanced Materials | Best Researcher Award

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Jiaojiao Li | Advanced Materials | Best Researcher Award

Dr. Jiaojiao Li , North University of China, China.

Dr. Jiaojiao Li is a lecturer at the North University of China, specializing in slip avalanches in advanced materials and complex systems. Her research encompasses a variety of materials, including bulk metallic glasses (BMGs), high-entropy alloys (HEAs), Al-Mg alloys, special vehicles, and even seismic activity related to earthquakes. Dr. Li’s work focuses on the universal scaling behavior of slip avalanches and their correlation with material structure and mechanical properties. She provides valuable insights into the deformation mechanisms of materials, aiding in the development of advanced, high-performance materials for industrial applications. 📚🔬⚙️

Publivation Profiles

Scopus

Education and Experience

  • Ph.D. in Materials Science – North University of China 📜
  • Lecturer – North University of China 🎓
  • Research Interests: Slip avalanches, bulk metallic glasses (BMGs), high-entropy alloys (HEAs), Al-Mg alloys, mechanical properties, advanced materials 🧪
  • Research Projects: Funded by Shanxi Province and national key labs 🏆

Suitability summary for best researcher Award

Dr. Jiaojiao Li, a Lecturer at North University of China, is a leading researcher in the field of advanced materials, specializing in the study of slip avalanches in complex systems. Her significant contributions to understanding the mechanical properties and deformation mechanisms of materials like bulk metallic glasses (BMGs)high-entropy alloys (HEAs), and Al-Mg alloys make her an exemplary candidate for the Best Researcher Award. Through her innovative work, Dr. Li has elucidated universal scaling laws of slip avalanches, providing crucial insights into the mechanical behavior of advanced materials under stress.

Professional Development

Dr. Li has been actively involved in multiple national and international research projects, focusing on advanced materials and their mechanical behaviors. Her contributions to the understanding of slip avalanches in materials like BMGs and HEAs have garnered recognition in both academic and industrial circles. She has also been part of collaborative efforts with prestigious research institutions and industry leaders, continuously advancing her expertise in the fields of materials science and mechanical engineering. Dr. Li’s development in both research and teaching ensures the continued progress of innovative materials for future technologies. 🔍💡🌍

Research Focus

Dr. Jiaojiao Li’s research focuses on the mechanical properties of advanced materials, particularly in understanding the behavior of slip avalanches in bulk metallic glasses (BMGs), high-entropy alloys (HEAs), and Al-Mg alloys. She explores the scaling behavior of slip avalanches and how they relate to material structure and mechanical performance. This research offers insights into deformation mechanisms, aiding the design of new materials with optimized properties for applications in various industries, including automotive and seismic engineering. Dr. Li’s work is essential for the future development of stronger, more reliable materials in complex systems. 🔬🛠️💡

Awards And Honours

  • Fundamental Research Program of Shanxi Province – Research Grant 🏅
  • Opening Projects of 24 National Key Laboratory of Special Vehicle Design – Research Grant 💼
  • Shanxi Provincial Key Laboratory for Advanced Manufacturing Technology – Research Grant 🔧
  • Best Paper Award – Materials & Design Journal 🌟

Publication Top Noted

  • Power-law scaling between mean stress drops and strain rates in bulk metallic glasses (2016) 📚 (Cited by: 48)
  • University of slip avalanches in a ductile Fe-based bulk metallic glasses (2017) 🧪 (Cited by: 10)
  • Temperature rises during strain-rate dependent avalanches in bulk metallic glasses (2020) 🔥 (Cited by: 12)
  • Seismic-like size dynamics of slip avalanches in bulk metallic glasses (2020) 🌍 (Cited by: 10)
  • Slip Statistics for a Bulk Metallic Glass Treated by Cryogenic Thermal Cycling Reflect Its Optimized Plasticity (2024) 🔧 (Cited by: 0)
  • Ordered sulfonated polystyrene particle chains organized through AC electroosmosis as reinforcing phases in Polyacrylamide hydrogels (2024) 💡 (Cited by: 2)
  • A Brief Overview of Temperature Rises During Shear Banding in Bulk Metallic Glasses (2024) 📈 (Cited by: 0)
  • Review on Abrasive Machining Technology of SiC Ceramic Composites (2024) ⚙️ (Cited by: 4)
  • Strain rate-dependent avalanches in bulk metallic glasses (2021) 💥 (Cited by: 4)

 

Wei Lan | Material Science | Best Researcher Award

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Wei Lan | Material Science | Best Researcher Award

Prof. Wei Lan, Lanzhou University, China.

Publication profile

Googlescholar
Scopus

Education and Experience

Education 🎓

  • 🧪 Ph.D., Condensed Matter Physics, Lanzhou University (2007)
  • 🧪 M.S., Condensed Matter Physics, Lanzhou University (2004)
  • 🧮 B.S., Physics, Lanzhou University (2002)

Experience 🏢

  • 👨‍🏫 Professor, Lanzhou University (2019–present)
  • 📚 Associate Professor, Lanzhou University (2009–2019)
  • 📘 Lecturer, Lanzhou University (2007–2009)
  • 🔬 Postdoctoral Researcher, University of Illinois at Urbana-Champaign (2010–2011)
  • ✈️ Visiting Scholar, University of Houston (2020)

Suitability For The Award

Professor Wei Lan is a highly deserving candidate for the Best Researcher Award, given his remarkable contributions to the field of condensed matter physics. His extensive academic and professional journey, coupled with his leadership role at Lanzhou University, showcases his commitment to advancing scientific understanding and innovation in physical sciences.

Professional Development 

Awards and Honors

  • 🏆 Outstanding Researcher Award, Lanzhou University
  • 🌟 Excellence in Teaching Award, Lanzhou University
  • 🎖️ Postdoctoral Fellowship, University of Illinois at Urbana-Champaign
  • 🏅 Visiting Scholar Recognition, University of Houston
  • 📜 Distinguished Contributions to Condensed Matter Physics Research

Publications Top Notes

  • 📝 “Interlayer and Phase Engineering Modifications of K-MoS2@C Nanoflowers for High-Performance Degradable Zn-Ion Batteries” (Small, 2024) – Cited by: 7 📚
  • 📝 “Molecular Design of Layered Hybrid Silver Bismuth Bromine Single Crystal for Ultra-Stable X-Ray Detection With Record Sensitivity” (Advanced Materials, 2024) – Cited by: 23 📚
  • 📝 “Recent Advances in Biodegradable Implantable Electrochemical Energy Storage Devices” (Scientia Sinica Technologica, 2024) – Cited by: 0 📚
  • 📝 “In Situ Fabrication of Hierarchical CuO@CoNi-LDH Composite Structures for High-Performance Supercapacitors” (ACS Applied Materials and Interfaces, 2024) – Cited by: 6 📚
  • 📝 “The Rise of Supercapacitor Diodes: Current Progresses and Future Challenges” (Chinese Physics B, 2024) – Cited by: 2 📚
  • 📝 “A Soft Implantable Energy Supply System That Integrates Wireless Charging and Biodegradable Zn-Ion Hybrid Supercapacitors” (Science Advances, 2023) – Cited by: 32 📚

Mohan Kumar Naidu| Material Science Award | Best Researcher Award

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Mohan Kumar Naidu| Material Science Award | Best Researcher Award

Dr. P. Mohan Kumar Naidu ,  Presidency University, Bangalore , India.

Dr. P. Mohan Kumar Naidu is a dedicated Professor in the Department of Physics at Presidency University, Bangalore, India, with a focus on advancing material science and condensed matter physics. His career spans roles from Assistant Professor to Professor, with significant contributions to the field through various research projects and publications. Dr. Naidu has been involved in cutting-edge research in dielectric materials and nanocomposites, and his work has been recognized internationally. His expertise extends to handling sophisticated instrumentation and conducting impactful experiments. 📚🔬

🔬Publication Profile

Scopus

Orcid

Suitability For The Award

Dr. P. Mohan Kumar Naidu is a distinguished researcher and professor in the Department of Physics at Presidency University, Bangalore, India. His impressive academic and professional background, coupled with his contributions to the field of material science and condensed matter physics, make him a strong candidate for a research-based Best Researcher Award .

Education  And Experience 💼

Dr. Mohan Kumar Naidu holds a Ph.D. from VIT University, Vellore, with a thesis on microwave dielectric studies. He completed his M.Sc. in Physics and a B.Sc. in Physics, Mathematics, and Computer Science with commendable results. His professional journey includes roles as a Professor, Associate Professor, and Assistant Professor at various institutions, including Presidency University and K.S. School of Engineering and Management. He has also worked as a Postdoctoral Fellow and Research Fellow, contributing significantly to his field. 🎓🔍

 

Professional Development

Dr. Naidu has made substantial strides in professional development through various research projects and patents. He filed a patent for polyamide-phenol compounds and has handled several funded projects as a Principal Investigator. His active involvement in projects, including those sanctioned by VGST and Presidency University, showcases his commitment to advancing research in physics and materials science. His ongoing projects continue to push the boundaries of scientific knowledge. 🧪💼

🏅📚🛠️Research Focus

Dr. P. Mohan Kumar Naidu’s research focus lies in material science and condensed matter physics, particularly in dielectric properties and nanocomposite materials. His work involves the synthesis and characterization of advanced materials for various applications, including energy storage and photocatalysis. His contributions to the field are marked by innovative approaches in studying dielectric and magnetic materials, enhancing their performance in practical applications. His research significantly impacts the development of new technologies and materials. ⚛️🔬

Awards and Honours

  • Patent Filed: “Study of dielectric properties of polyamide-phenol compounds for use as thermo-sensitive and humidity-sensitive devices” – March 14, 2011 🏅
  • VGST Project: Principal Investigator for a project under the SMYSR scheme (2013-14-GRD-299) 🎯
  • Presidency University Project: Co-Principal Investigator for a project (RI & C/Funded Projects/RC1/ 2018 Dated 11.07.2018) 🏆
  • Current Project: Principal Investigator for a project sanctioned by Presidency University (Funded Projects/Seed Grants/SI-3/08/11/2021-3) 🌟
  • Ph.D. Supervision: Supervised 1 Ph.D. scholar and 4 ongoing Ph.D. candidates 📜

Publications 📚📝

  1. “Improved electrochemical performance of Fe3O4/TiO2 composite thin film electrode for energy storage applications”
    Ceramics International, 2024 – 0 citations 🆕
  2. “Review of estimation of soil moisture using active microwave remote sensing technique”
    Remote Sensing Applications: Society and Environment, 2024 – 4 citations 🌍
  3. “Enhanced photocatalytic activity of orientationally grown CQD/TiO2 thin film on FTO substrate”
    Ceramics International, 2023 – 11 citations 🌟
  4. “Role of carbon quantum dots in a strategic approach to prepare pristine Zn2SnO4 and enhance photocatalytic activity under direct sunlight”
    Diamond and Related Materials, 2023 – 6 citations ☀️
  5. “Decolourization of Safranin Dye by Iron(II)/HClO4/CAB System from Wastewater Assisted by Response Surface Modeling”
    Asian Journal of Chemistry, 2022 – 1 citation 💧
  6. “A rutile phase-TiO2 film via a facile hydrothermal method for photocatalytic methylene blue dye decolourization”
    Materials Today: Proceedings, 2022 – 0 citations 🎨

Conclusion

Dr. P. Mohan Kumar Naidu’s consistent dedication to research, his extensive publication record, leadership in significant research projects, and mentorship of young scholars make him a deserving candidate for a research-based award. His work in material science and condensed matter physics is not only academically rigorous but also contributes to real-world applications, especially in the field of energy and environmental sustainability. Dr. Naidu exemplifies the qualities of an outstanding researcher whose contributions have a lasting impact on both science and society.