Guangxin Lv | Polymer | Best Researcher Award

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Assist. Prof. Dr. Guangxin Lv | Polymer | Best Researcher Award

Guangxin Lv is an Assistant Professor at the School of Sustainable Energy and Resources, Nanjing University. He earned his PhD in Materials Science & Engineering from the University of Illinois, Urbana-Champaign, where he studied the thermal conductivity of polymer networks. He then conducted postdoctoral research at MIT under Professor Gang Chen, focusing on the photomolecular effect. His research expertise includes polymeric thermal management materials, heat transfer, and lithium-ion battery technology. With over 18 publications, he continues to advance sustainable energy solutions through innovative material design.

Assist. Prof. Dr. Guangxin Lv | Nanjing University | China

Profile

ORCID ID

🎓Education

  • Guangxin Lv earned a Bachelor of Science degree from Nanjing University’s Kuang Yaming Honor School, an elite program for Physics majors, where he conducted research on lithium-ion batteries, heat transfer, and water treatment. He then pursued a PhD in Materials Science & Engineering at the University of Illinois, Urbana-Champaign, from August 2018 to August 2022, focusing on the thermal conductivity of polymer networks

👨‍🏫Experience

  • Following his doctoral studies, Guangxin Lv worked as a postdoctoral researcher at the Massachusetts Institute of Technology from August 2022 to April 2024 under the supervision of Professor Gang Chen, where he explored the photomolecular effect. In August 2024, he joined the School of Sustainable Energy and Resources at Nanjing University as an Assistant Professor, leading research on polymeric thermal management materials.

🏆Awards and Recognitions

  • Guangxin Lv has contributed extensively to the field, with more than 18 publications in esteemed scientific journals. His research achievements have been recognized through various awards and accolades, reflecting his expertise and impact in materials science and thermal engineering.

💡Skills and Certifications

  • Guangxin Lv possesses expertise in polymeric thermal management materials, thermal conductivity analysis, and heat transfer mechanisms. He is skilled in experimental techniques for material characterization, including thermal and spectroscopic analysis, as well as computational modeling for heat dissipation studies. His proficiency extends to lithium-ion battery technology, photomolecular effects, and advanced polymer network design. With strong analytical and problem-solving abilities, he contributes to the development of energy-efficient and high-performance materials for sustainable applications.

🔬 Research Focus

  • Guangxin Lv’s research focuses on polymeric thermal management materials, exploring their applications in energy-efficient systems and electronics cooling. His work delves into the thermal conductivity of polymer networks, aiming to enhance heat dissipation and thermal regulation in advanced materials. He also investigates photomolecular effects to understand light-induced thermal behaviors at the molecular level. Additionally, his expertise extends to lithium-ion battery technology and heat transfer mechanisms, contributing to the development of sustainable energy solutions and high-performance materials.

🌎Conclusion

  • With a strong academic background, innovative research contributions, and impactful publications, Dr. Guangxin Lv is a highly suitable candidate for the Best Researcher Award. His work in polymeric thermal management materials and photomolecular effects positions him as a leading researcher driving advancements in energy efficiency and materials science.

📖Publications

  • Reversible two-way tuning of thermal conductivity in an end-linked star-shaped thermoset
    Authors: C. M. Hartquist, B. Li, J. H. Zhang, Z. Yu, G. Lv, J. Shin, S. V. Boriskina, G. Chen, X. Zhao, S. Lin
    Journal: Nature Communications, 2024

  • Response to “Comment on ‘Frequency-domain probe beam deflection method for measurement of thermal conductivity of materials on micron length scale’”
    Authors: J. Sun, G. Lv, D. G. Cahill
    Journal: Review of Scientific Instruments, 2024

  • Molecular-Weight Dependence of Center-of-Mass Chain Diffusion in Polymerized Ionic Liquid Melts
    Authors: P. Lan, Q. Zhao, G. Lv, G. S. Sheridan, D. G. Cahill, C. M. Evans
    Journal: Macromolecules, 2023

  • Dynamic Covalent Bonds in Vitrimers Enable 1.0 W/(m K) Intrinsic Thermal Conductivity
    Authors: G. Lv, X. Li, E. Jensen, B. Soman, Y.-H. Tsao, C. M. Evans, D. G. Cahill
    Journal: Macromolecules, 2023

  • Frequency-domain probe beam deflection method for measurement of thermal conductivity of materials on micron length scale
    Authors: J. Sun, G. Lv, D. G. Cahill
    Journal: Review of Scientific Instruments, 2023

Tao Chen | Polymer Modification | Best Researcher Award

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Dr. Tao Chen | Polymer Modification | Best Researcher Award

 Major Projects:

  • As the Principal Investigator of the Yunnan Provincial Science and Technology Department’s project, he has led innovative research efforts, showcasing his ability to manage and execute significant scientific projects.
Dr. Tao Chen, Kunming University of Science and Technology, China

Profile

Scopus

🌱EARLY ACADEMIC PURSUITS

  • Tao Chen began his academic journey at East China University of Science and Technology, earning a Bachelor of Engineering in Process Equipment and Control Engineering in 2012. Driven by a passion for engineering thermophysics, he pursued a Direct Ph.D. Program in Power Engineering and Engineering Thermophysics at the same institution, completing his doctorate in 2018.

💼PROFESSIONAL ENDEAVORS

  • After earning his Ph.D., Tao Chen joined Yunnan University as a Postdoctoral Researcher at the Physics Postdoctoral Station from 2018 to 2020. In March 2021, he became a Lecturer at the School of Chemistry and Engineering, Kunming University of Science and Technology, where he has continued to excel in teaching and research.Teaching Contributions:
    • Delivered undergraduate courses on Process Equipment Design.
    • Guided students in integrating theoretical knowledge with practical applications in process engineering.

🔬CONTRIBUTIONS AND RESEARCH FOCUS 

    • Tao Chen’s research centers on:

      1. Key Technologies and Equipment for Manufacturing Polymer Materials Products.
      2. Viscoelastic Fluid Flow Analysis.
      3. Interface Control of Organic/Inorganic Materials.

      His contributions include:

      • Exploring polystyrene nanoparticle patterns for structural color applications.
      • Developing high-conductivity films through innovative coating techniques.
      • Enhancing the mixing performance of polymer compounds via advanced extrusion and modeling techniques.

🌍IMPACT AND INFLUENCE

  • Tao Chen’s work in polymer materials and nanotechnology has influenced both academic and industrial fields, providing sustainable solutions in advanced manufacturing and materials engineering. His insights into fluid dynamics and polymer blending have contributed to optimizing material properties, benefiting various engineering sectors.

📚ACADEMIC CITES 

  • Tao Chen’s research has been featured in leading scientific journals:

    • Colloids and Surfaces A: Physicochemical and Engineering Aspects (2024).
    • Nanotechnology (2024).
    • Polymers for Advanced Technologies (2024).

    His work on the mixing performance of polymer materials and highly conductive films demonstrates high impact, showcasing his role as a thought leader in material sciences.

🌟LEGACY AND FUTURE AND CONTRIBUTIONS

  • Tao Chen’s future endeavors promise to enhance the development of:

    • Next-generation polymer manufacturing techniques.
    • Sustainable material solutions through interdisciplinary innovations.
    • Advanced teaching methodologies to inspire upcoming engineers.

    By continuing his impactful research, Tao Chen is poised to leave a lasting legacy in engineering thermophysics, polymer science, and academic mentorship.

📄Publications

  • Enhanced sensitivity and broadband response in porous triple periodic minimal surface piezoresistive sensors for telemedicine applications
    Authors: Han, J., Li, Z., Kong, S., … Xie, D., Feng, D.
    Journal: Chemical Engineering Journal, 2024, 500, 156989
  • Thermally conductive silver adhesive enhanced by MXene@AgNPs with excellent thermal conductivity for thermal management applications
    Authors: Liu, L., Chen, T., Han, L., … Li, J., Gan, G.
    Journal: Applied Surface Science, 2024, 672, 160787
  • Preparation of three dimensional boron nitride-aluminum oxide dual thermal network resin-based composite materials and their performance study
    Authors: Han, L., Liu, L., Chen, T., … Zuo, C., Gan, G.
    Journal: Polymer, 2024, 308, 127382
  • Spin coated ultrathin PEDOT/SWCNT film with high electronic conductivity
    Authors: Zhong, Y., Li, B., Wang, Y., … Zhao, H., Chen, T.
    Journal: Nanotechnology, 2024, 35(29), 295703
  • Ultrahigh Thermal Conductivity of Epoxy/Ag Flakes/MXene@Ag Composites Achieved by In Situ Sintering of Silver Nanoparticles
    Authors: Chen, T., Liu, L., Han, L., … Li, J., Gan, G.
    Journal: Langmuir, 2024, 40(23), pp. 12059–12069