Xiangqian Fan | Materials | Best Researcher Award

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Mr. Xiangqian Fan | Materials | Best Researcher Award

Fan Xiangqian is a PhD holder, senior engineer, and doctoral supervisor at Zhengzhou University. His research focuses on concrete materials and structural fracture resistance. Recognized as a Youth Top-notch Talent under national and provincial programs, he has published extensively and received wide academic attention. His expertise lies in enhancing the durability and performance of structural materials, contributing significantly to the advancement of civil and structural engineering.

Mr. Xiangqian Fan | Nanjing Hydraulic Research Institute | China

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🎓Education

  • Fan Xiangqian completed his academic training with a focus on civil engineering and material science, culminating in a PhD. His academic journey laid a solid foundation in structural engineering principles, cementitious materials, and fracture mechanics. His pursuit of knowledge through advanced degrees has positioned him as a thought leader in the domain of concrete materials and structural durability.

👨‍🏫 Experience

  • Fan Xiangqian is currently affiliated with Zhengzhou University in Zhengzhou, China, where he serves as a doctoral supervisor and senior engineer. Throughout his career, he has been actively involved in both academic research and engineering applications. His work bridges the gap between theoretical advancements and practical solutions in structural engineering, especially in concrete technologies.

🤝 Awards and Recognition

  • Fan Xiangqian has been honored with multiple prestigious titles recognizing his contributions to engineering and material science. He was selected under the National High-Level Talents Special Support Program as a Youth Top-Notch Talent. Additionally, he was recognized by the Ministry of Water Resources and Jiangsu Province for his exceptional potential and performance, earning accolades as a top-notch youth talent and an Excellent Youth awardee, respectively. These honors reflect his influence and leadership in the field.

💡Skills and Certifications

  • Fan Xiangqian possesses deep technical knowledge in structural fracture resistance and the mechanical behavior of concrete materials. He is skilled in experimental methods, finite element modeling, and the development of new materials aimed at improving the durability and sustainability of infrastructure. His combined abilities in research design, supervision, and engineering innovation make him a valuable contributor to the academic and civil engineering communities.

🔬 Research Focus

  • His research centers on the performance and durability of concrete under various environmental and mechanical stressors. He is particularly interested in enhancing the fracture resistance of structural materials to improve the long-term safety and resilience of buildings, bridges, and water infrastructure. Through his work, he aims to address critical challenges in material failure and sustainability in structural systems.

🌎Conclusion

  • Fan Xiangqian is a dedicated and impactful researcher whose work is shaping the future of concrete material performance and structural engineering. With a combination of strong academic credentials, high-level recognitions, and a sharp research focus, he continues to contribute significantly to the understanding and development of resilient infrastructure systems. His role as a mentor and innovator positions him as a leading figure in the next generation of civil engineering solutions.

📖Publications

  • Title: Mechanical properties of the liner for strengthening steel pipe under the action of normal fault
    Authors: Fan Xiangqian
    Journal: Journal of Pipeline Science and Engineering

  • Title: Fracture properties of early-age concrete based on digital image correlation technique
    Authors: Fan Xiangqian
    Journal: Engineering Fracture Mechanics

  • Title: Effect of different CFRP strengthening methods on fracture parameters of concrete beam
    Authors: Fan Xiangqian
    Journal: Engineering Fracture Mechanics

  • Title: Macro-mechanics and Microstructure of Nanomaterial-modified Geopolymer Concrete: A Comprehensive Review
    Authors: Fan Xiangqian
    Journal: Journal of Wuhan University of Technology – Materials Science Edition

  • Title: Experimental study on dynamic mechanical properties of carbon fiber reinforced polymer (CFRP)-reinforced concrete beams based on rate correlation
    Authors: Fan Xiangqian
    Journal: Structural Concrete

Ying Wang | Advanced Materials Engineering | Best Researcher Award

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Prof. Ying Wang | Advanced Materials Engineering | Best Researcher Award 

Ying Wang is an Associate Professor in the Department of Macromolecular Science at Fudan University. She earned her Ph.D. in Macromolecular Science and Engineering from Virginia Tech and also holds a Master’s degree in Statistics. Her research focuses on solid-state polymer electrolytes for high-energy-density lithium batteries, integrating machine learning for materials discovery. She has extensive experience in polymer science, statistical modeling, and AI-driven materials optimization. Recognized as a Shanghai Leading Talent, she has received numerous awards, including the China National Natural Science Fund for Excellent Young Scientists. Her work advances sustainable energy storage through innovative polymer materials.

Prof. Ying Wang | Fudan University | China

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🎓Education

  • Ying Wang earned her Ph.D. in Macromolecular Science and Engineering from Virginia Tech in December 2016 under the guidance of Professor Louis A. Madsen. Her doctoral research focused on the development and characterization of advanced polymer electrolytes for sustainable energy storage and conversion. In addition to her Ph.D., she obtained a Master’s degree in Statistics from Virginia Tech in May 2016. She completed her undergraduate studies at Beijing University of Chemical Technology, earning a Bachelor of Engineering in Polymer Science and Engineering in July 2010.

👨‍🏫Experience

  • Ying Wang is currently an Associate Professor in the Department of Macromolecular Science at Fudan University, a position she has held since May 2021. Before joining Fudan, she worked as a Data Scientist at Hughes Network Systems from November 2017 to April 2021, where she applied machine learning and statistical modeling in engineering projects. She also gained postdoctoral research experience at Lawrence Berkeley National Laboratory’s Molecular Foundry from January to October 2017, where she worked on polymer composite membranes for battery applications. Earlier in her career, she was a Visiting Scholar at Deakin University, focusing on the development of solid-state polymer composite electrolytes. Her research journey began as a Graduate Research Assistant at Virginia Tech, where she explored gel electrolytes for energy storage systems, and as a Research Assistant at the Chinese Academy of Sciences, where she investigated ultra-high molecular weight polyethylene.

🏆Awards and Recognitions

  • Ying Wang has received numerous prestigious accolades throughout her career. She was invited to nominate candidates for the 2024 Nobel Prize in Chemistry and has been recognized as a Shanghai Leading Talent in 2022. She received the China National Natural Science Fund for Excellent Young Scientists in 2021 and was honored as a Shanghai Huawei New Engineering Talent in the same year. Her achievements also include innovation awards from Hughes Network Systems, finalist recognition in the Capital One Data Analytics Modeling Competition, and several research travel grants, including the NSF Polymer Travel Award and the Chevron-Phillips Chemical Professional Excellence Travel Award.

💡Skills and Certifications

  • With a strong interdisciplinary background, Ying Wang possesses expertise in polymer science, materials engineering, and statistical modeling. She is highly skilled in machine learning applications for materials science, particularly in developing and screening advanced polymer electrolytes for energy storage devices. Her technical competencies extend to rheology, electrochemical analysis, and nanotechnology, alongside proficiency in AI-driven materials discovery and predictive modeling. She also has significant experience in statistical consulting and data analytics, having worked extensively with experimental design and predictive analysis in both academic and industrial settings.

🔬 Research Focus

  • Ying Wang’s research primarily centers on the development and characterization of solid-state polymer electrolytes for safe and high-energy-density lithium batteries. Her work integrates artificial intelligence and machine learning to design and optimize materials, predict battery lifespan, and understand molecular self-assembly behaviors in polymeric liquid crystals. She also investigates ionic liquid-based polymer systems and their impact on next-generation energy storage technologies. Her contributions include pioneering studies on Li-ion conduction mechanisms, phase transitions, and interfacial transport in advanced polymer and inorganic composite electrolytes. Through her research, she aims to advance the field of sustainable energy solutions by developing high-performance polymer materials with superior ionic conductivity and stability.

🌎Conclusion

  • Dr. Ying Wang’s groundbreaking research, interdisciplinary approach, and strong leadership make her an ideal candidate for the Best Researcher Award. Her work not only advances scientific knowledge but also contributes to real-world technological solutions, particularly in the development of safer and more efficient energy storage systems. With her impressive achievements, recognition, and commitment to innovation, she exemplifies the qualities of an outstanding researcher whose contributions will continue to shape the future of materials science and energy technology.

📖Publications

  • Solid-state rigid-rod polymer composite electrolytes with nanocrystalline lithium ion pathways
    Authors: Y. Wang, C.J. Zanelotti, X. Wang, R. Kerr, L. Jin, W.H. Kan, T.J. Dingemans, …
    Journal: Nature Materials, 2021

  • Highly conductive and thermally stable ion gels with tunable anisotropy and modulus
    Authors: Y. Wang, Y. Chen, J. Gao, H.G. Yoon, L. Jin, M. Forsyth, T.J. Dingemans, …
    Journal: Advanced Materials, 2016

  • Double helical conformation and extreme rigidity in a rodlike polyelectrolyte
    Authors: Y. Wang, Y. He, Z. Yu, J. Gao, S. Ten Brinck, C. Slebodnick, G.B. Fahs, …
    Journal: Nature Communications, 2019

  • Molecular alignment and ion transport in rigid rod polyelectrolyte solutions
    Authors: Y. Wang, J. Gao, T.J. Dingemans, L.A. Madsen
    Journal: Macromolecules, 2014

  • Water and sodium transport and liquid crystalline alignment in a sulfonated aramid membrane
    Authors: J. Gao, Y. Wang, B. Norder, S.J. Garcia, S.J. Picken, L.A. Madsen, …
    Journal: Journal of Membrane Science, 2015

Zhiying Ren | Material Engineering | Best Researcher Award

Published on by China Scientist

Prof. Zhiying Ren | Material Engineering | Best Researcher Award

Industry Collaboration :
  • Prof. Ren has collaborated with key enterprises, including the China Nuclear Power Research and Design Institute, to develop cutting-edge vibration and noise reduction solutions. These industry partnerships underscore his ability to bridge academic research with industrial applications.
Prof. Zhiying Ren, FuZhou University, China

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🎓Early Academic Pursuits

Zhiying Ren’s early academic journey was marked by a deep commitment to mechanical engineering and material science. Her education and training laid a strong foundation for her later contributions in vibration reduction and metal rubber technology. Selected as a high-level talent in Fujian Province (Class B), her early career was characterized by a rapid ascent into specialized research areas, positioning her as an expert in mechanical and aerospace applications.

👩‍🔬Professional Endeavors

  • Zhiying Ren has held prestigious positions, including being a core member of the Joint Fund Innovation Team of the Ministry of Education and serving as a “Tongjiang Scholar” in Quanzhou, Fujian Province. She is also recognized as a special commissioner of Science and Technology in Fujian Province, reflecting her influence and leadership in both academic and industrial sectors.
  • Ren has managed over 30 major projects over the past five years, including three National Natural Science Foundation projects, one of which is a key national defense initiative. Her collaborations span national and provincial institutions, emphasizing her role in nuclear power, aerospace, and vibration noise reduction technologies.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

  • Ren’s research focuses on advanced vibration and noise reduction technologies for aerospace, marine, and nuclear thermal power equipment. A significant area of her expertise is the development of special vibration damping materials, especially those involving metal rubber technology. This work has practical implications in both military and civil engineering sectors, particularly in noise reduction and oil-water separation technology, where metal rubber serves as a breakthrough material.
  • Her dedication to research aligns with national strategic needs, with breakthroughs in vibration absorption and filtration technology. These advancements have translated into tangible solutions across several engineering fields, including defense and civilian applications.

 

🌍Impact and Influence

  • Zhiying Ren’s impact on her field is profound, with 158 publications in SCI-indexed journals, 92 patents, and numerous collaborations with leading institutions. Her editorial roles in journals such as Symmetry, Vibration, Testing and Diagnosis, and Tribology Journal further cement her influence in the academic community.
  • Through school-enterprise and university-enterprise collaborations, Ren has facilitated the development of crucial technologies, including the design of metal rubber hangers for the China Nuclear Power Research and Design Institute and vibration damping materials for elevator traction machines in partnership with the Fujian Special Equipment Inspection and Research Institute.

🏅ACADEMIC CITES AND RECOGNITION

Ren’s work is widely cited in the academic community, contributing to the development of vibration reduction techniques and materials for industrial applications. Her citation index includes influential works, such as the one referenced with DOI: 10.1002/adfm.202212262, which highlights her contributions to the field of metal rubber technology and its applications in vibration and noise reduction.

🌍 LEGACY AND FUTURE CONTRIBUTIONS

  • Ren’s legacy in the field of mechanical engineering is marked by her focus on innovation and practical applications of metal rubber technology. As the director of the Tribology Branch of the Chinese Mechanical Engineering Society and deputy director of several national committees, she has played a key role in shaping research directions in her field. She is also an advocate for promoting women in science, serving as an executive director of the Fujian Female Science and Technology Workers Association.
  • Looking forward, Ren’s ongoing research and collaborations are expected to continue yielding groundbreaking innovations, particularly in vibration reduction technologies and their applications in national defense, nuclear power, and civil engineering.

📰PUBLICATIONS

  • Copper-Free Resin-Based Braking Materials: A New Approach for Substituting Copper with Fly-Ash Cenospheres in Composites
    Authors: Zheng, K., Lin, Y., You, S., Ren, Z., Huang, J.
    Journal: Chinese Journal of Mechanical Engineering (English Edition), 2024, 37(1), 28
  • Design and Mechanical Properties of Metal Rubber Secondary Multidirectional Vibration Isolation System under Random Vibration
    Authors: Shi, X., Zhou, H., Zhou, C., Guo, Z., Ren, Z.
    Journal: Nonlinear Dynamics, 2024, 112(17), pp. 14805–14828
  •  Multi-Scale Pore Model Construction and Damage Behavior Analysis of SiCf/SiC Composite Tubes
    Authors: Yan, W., Ren, Z., Fan, X., Shen, L., Xu, J.
    Journal: Materials Characterization, 2024, 214, 114083
  • Entangled Metallic Porous Material–Silicone Rubber Interpenetrating Phase Composites with Simultaneous High Specific Stiffness and Energy Consumption
    Authors: Zheng, X., Xiao, Z., Ren, Z., Yao, L., Bai, H.
    Journal: Composite Structures, 2024, 341, 118213
  • Ultrasonic Rolling Strengthening of TC11 Titanium Alloy Surface: Corrosion and Wear Properties under Extreme Conditions
    Authors: Zheng, K., Zhao, X., Pan, L., Ren, Z.
    Journal: Wear, 2024, 550-551, 205415