Changlong Wang | Material Science | Best Researcher Award

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Prof. Dr. Changlong Wang | Material Science | Best Researcher Award

Changlong Wang is a professor at Beijing University of Technology, specializing in transition-metal nanomaterials, nanocatalysis, and sustainable technologies. He earned his PhD from the Universities of Bordeaux and Toulouse III and conducted postdoctoral research at the Max-Planck-Institut für Kohlenforschung in Germany. His work focuses on developing cutting-edge solutions for the circular economy, waste upcycling, and energy applications.

Prof. Dr. Changlong Wang | Beijing University of technology | China

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SCOPUS ID

🎓 Education

  • Changlong Wang pursued his graduate studies under the guidance of Prof. Dezhi Wang at Central South University in Changsha, China. He then prepared his PhD at the Universities of Bordeaux and Toulouse III in France under the supervision of Prof. Didier Astruc..

💼 Experience

  • Following his doctoral studies, he conducted postdoctoral research in Prof. Ferdi Schüth’s group at the Max-Planck-Institut für Kohlenforschung in Germany. Currently, he is a professor at Beijing University of Technology, where he leads research in advanced nanomaterials and sustainable technologies.

🔥 Awards and Achievements

  • Throughout his career, Changlong Wang has received multiple accolades for his contributions to nanocatalysis and sustainable chemistry. His innovative work in waste upcycling and energy applications has been recognized at both national and international levels.

🛠️ Skills and Certifications

  • His expertise spans transition-metal nanomaterials, nanocatalysis, and the development of innovative solutions for a circular economy. He has extensive experience in designing catalytic systems for waste valorization and energy-efficient processes.

🔬 Research Focus

  • His research primarily revolves around cutting-edge technologies for circular economy, transition-metal nanomaterials, and nanocatalysis. He is dedicated to advancing sustainable methods for waste upcycling and exploring energy applications that contribute to environmental sustainability.

Conclusion

  • Given his remarkable contributions, interdisciplinary expertise, and global recognition, Prof. Dr. Changlong Wang is an exceptional nominee for the Research for Best Researcher Award. His work continues to push the boundaries of material science, fostering innovations that benefit both industry and sustainability.

📄Publications

  • Unlocking the Production of Biomass-Derived Plastic Monomer 2,5-Furandicarboxylic Acid at Industrial-Level Concentration

    • Authors: W. Xie, Weizhen; Y. Zhang, Yining; H. Zheng, Hang; C. Wang, Changlong; X. Tang, Xing
    • Journal: ACS Catalysis, 2024

  • Confining of PtCo into MCM-41-C for Selective Hydrogenation of Biomass-Derived Unsaturated Aldehydes

    • Authors: C. Wang, Changlong; Z. Zhao, Ziyi; Y. Peng, Yujie; F. Fu, Fangyu; Y. Wu, Yufeng
    • Journal: Fuel, 2024

  • Integrating Theory with the Nanoreactor Concept to Synthesize Hollow Carbon Sphere-Encapsulated PtNi Alloys for Enhanced H2 Generation

    • Authors: Y. Wu, Yufeng; M. Song, Minwei; Z. Zhao, Ziyi; C. Wang, Changlong; D.D. Astruc, Didier D.
    • Journal: Carbon Energy, 2024

  • Corrosion Engineering of Part-Per-Million Single Atom Pt1/Ni(OH)2 Electrocatalyst for PET Upcycling at Ampere-Level Current Density

    • Authors: M. Song, Minwei; Y. Wu, Yufeng; Z. Zhao, Ziyi; C. Wang, Changlong; J. Lu, Jun
    • Journal: Advanced Materials, 2024

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

Zhi-Qiang Tao | Mechanical Engineering| Best Researcher Award

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Dr .Zhi-Qiang Tao | Mechanical Engineering| Best Researcher Award

Research Contributions:
  • With over 20 peer-reviewed technical papers published in international journals and conference proceedings, Dr. Tao has significantly contributed to the understanding and advancement of his specialized research areas. His publications reflect the breadth of his knowledge and dedication to his field.
 Dr . Zhi-Qiang Tao, Zhejiang Ocean University, China

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Scopus

🎓Early Academic Pursuits

  • Zhi-Qiang Tao received his Ph.D. in Mechanical Engineering from Beijing University of Technology in 2018. During his doctoral studies, Tao focused on mechanical dynamics and fatigue-related phenomena, laying the foundation for his future research in fatigue mechanisms, particularly in multiaxial and very high cycle fatigue.

💼Professional Endeavors

  • After completing his Ph.D., Zhi-Qiang Tao became a Research Assistant at the Robotics College of Beijing Union University. Here, he collaborated with colleagues on cutting-edge research in robotics and mechanical engineering, contributing significantly to the development of fatigue analysis tools and technologies. His role also involved mentoring students and assisting in various research projects.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

  • Zhi-Qiang Tao has focused extensively on:
    • Mechanical Dynamics
    • Multiaxial Fatigue
    • Very High Cycle Fatigue (VHCF)

    His research investigates how materials respond under extreme conditions over extended periods, helping industries understand material durability and mechanical resilience. His work has applications across sectors such as automotive, aerospace, and robotics, providing critical insights into the longevity and safety of components.

🏆IMPACT AND INFLUENCE

  • Tao’s research on very high cycle fatigue is of particular importance, as it addresses the need for understanding how materials behave under more than one million cycles of loading. His work helps improve the design of mechanical systems to avoid failures, thus enhancing safety and reliability in critical infrastructures. With over 20 peer-reviewed technical papers published in international journals and conference proceedings, his work has been widely cited and recognized. His contributions serve as a foundation for ongoing studies in fatigue failure mechanisms.

🏅ACADEMIC CITES

  • Zhi-Qiang Tao has received numerous citations in the fields of mechanical dynamics and fatigue studies, underscoring his impact on the academic community. His contributions have been referenced in studies related to material resilience, fatigue life prediction, and failure analysis, emphasizing his role in advancing the understanding of fatigue phenomena in engineering materials.

🔮LEGACY AND FUTURE CONTRIBUTIONS

  • Zhi-Qiang Tao’s legacy in the field of mechanical engineering is one of persistence and innovation. His future contributions are expected to continue influencing how industries approach material fatigue and structural design. As fatigue becomes an increasingly crucial aspect of robotic systems, Tao’s work will play a pivotal role in ensuring mechanical components can withstand extreme conditions and prolonged use. Through his research, he has not only contributed to academia but also provided valuable insights for industry applications that focus on extending the life cycle of mechanical components, enhancing both safety and performance.

📰PUBLICATIONS

  • A new probabilistic control volume scheme to interpret specimen size effect on fatigue life of additively manufactured titanium alloys
    Authors: Tao, Z.-Q., Wang, Z., Pan, X., Qian, G., Hong, Y.
    Journal: International Journal of Fatigue, 2024, 183, 108262
  •  Surface roughness prediction and roughness reliability evaluation of CNC milling based on surface topography simulation
    Authors: Zhang, Z., Lv, X., Qi, B., Zhang, M., Tao, Z.
    Journal: Eksploatacja i Niezawodnosc, 2024, 26(2), 183558
  •  Life prediction method based on damage mechanism for titanium alloy TC4 under multiaxial thermo-mechanical fatigue loading
    Authors: Li, D.-H., Shang, D.-G., Mao, Z.-Y., Cong, L.-H., Tao, Z.-Q.
    Journal: Engineering Fracture Mechanics, 2023, 282, 109206
  • Multiaxial fatigue life estimation based on weight-averaged maximum damage plane under variable amplitude loading
    Authors: Tao, Z.-Q., Qian, G., Li, X., Zhang, Z.-L., Li, D.-H.
    Journal: Journal of Materials Research and Technology, 2023, 23, pp. 2557–2575
  •  Multiaxial fatigue life prediction by equivalent energy-based critical plane damage parameter under variable amplitude loading
    Authors: Tao, Z.-Q., Qian, G., Sun, J., Zhang, Z.-L., Hong, Y.
    Journal: Fatigue and Fracture of Engineering Materials and Structures, 2022, 45(12), pp. 3640–3657