Wenbo Yu | Materials | Best Researcher Award

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Prof. Wenbo Yu | Materials | Best Researcher Award

Prof. Wenbo Yu | Materials | Director at Beijing Jiaotong University | China

Prof. Wenbo Yu is a highly accomplished scholar and researcher in the field of Materials Science and Engineering, currently serving as a Professor at Beijing Jiaotong University, China. With a strong academic foundation and global research exposure, Prof. Wenbo Yu has made remarkable contributions to the synthesis, processing, and performance optimization of ceramic and composite materials. He earned his Ph.D. in Materials Science from Université de Poitiers, France, where he conducted advanced studies on the synthesis and mechanical properties of ceramics under the supervision of Professors Sylvain Dubois and Véronique Gauthiers. Prior to that, he obtained his Master’s and Bachelor’s degrees in Materials Science from Beijing Jiaotong University and Changsha University of Science and Technology, respectively. Prof. Wenbo Yu has held several significant academic positions, including Associate Professor and Postdoctoral Researcher at Tsinghua University, where his work focused on material forming and mechanical performance improvement. His research interests include ceramic composites, nanolaminated materials, MAX and MAB phases, thermal shock resistance, and additive manufacturing. With strong research skills in material synthesis, microstructural characterization, and mechanical analysis, he has authored more than 60 SCI-indexed papers with over 1,000 citations and an H-index of 22. His groundbreaking work has appeared in top journals such as Acta Materialia, Journal of the European Ceramic Society, and Journal of Alloys and Compounds. Prof. Wenbo Yu has been honored with prestigious recognitions, including the Beijing Rail Transit Outstanding Youth Talent Award and the Machinery Industry Award for innovation in high-pressure die casting. Through his teaching, research leadership, and collaboration, he has contributed significantly to the advancement of materials science both in academia and industry. In conclusion, Prof. Wenbo Yu stands as a leading figure in his field, dedicated to pioneering new frontiers in sustainable and high-performance materials research.

Profile: Google Scholar | Scopus

Featured Publications

  1. Hu, J., Li, S., Zhang, J., Chang, Q., Yu, W., & Zhou, Y. (2020). Mechanical properties and frictional resistance of Al composites reinforced with Ti₃C₂Tx MXene. Chinese Chemical Letters, 31(4), 996–999. (Cited by 122)

  2. Li, S. B., Yu, W. B., Zhai, H. X., Song, G. M., Sloof, W. G., & Van der Zwaag, S. (2011). Mechanical properties of low temperature synthesized dense and fine-grained Cr₂AlC ceramics. Journal of the European Ceramic Society, 31(1–2), 217–224. (Cited by 119)

  3. Yu, W., Wang, X., Zhao, H., Ding, C., Huang, Z., Zhai, H., Guo, Z., & Xiong, S. (2017). Microstructure, mechanical properties and fracture mechanism of Ti₂AlC reinforced AZ91D composites fabricated by stir casting. Journal of Alloys and Compounds, 702, 199–208. (Cited by 94)

  4. Yu, W., Li, S., & Sloof, W. G. (2010). Microstructure and mechanical properties of a Cr₂Al(Si)C solid solution. Materials Science and Engineering: A, 527(21–22), 5997–6001. (Cited by 89)

  5. Lu, X., Li, S., Zhang, W., Yao, B., Yu, W., & Zhou, Y. (2019). Crack healing behavior of a MAB phase: MoAlB. Journal of the European Ceramic Society, 39(14), 4023–4028. (Cited by 87)

  6. Yu, W., Mauchamp, V., Cabioc’h, T., Magne, D., Gence, L., Piraux, L., & Dubois, S. (2014). Solid solution effects in the Ti₂Al(CxNy) MAX phases: Synthesis, microstructure, electronic structure and transport properties. Acta Materialia, 80, 421–434. (Cited by 77)

  7. Lu, X., Li, S., Zhang, W., Yu, W., & Zhou, Y. (2019). Thermal shock behavior of a nanolaminated ternary boride: MoAlB. Ceramics International, 45(7), 9386–9389. (Cited by 75)

 

Kseniia Grafskaia | Materials Science | Women Researcher Award

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Ms. Kseniia Grafskaia | Materials Science | Women Researcher Award

Dr. Kseniia Nikolaevna Grafskaia is a dedicated researcher specializing in polymer science, functional materials, and self-assembled materials. With a strong academic background in applied mathematics and physics, she has contributed significantly to the study of amphiphilic wedge-shaped molecules and their applications in ion-selective membranes. Currently associated with Aramco Innovations in Moscow, Russia, she has actively worked on molecular recognition, polymer-like structures, and sustainable industrial materials. Her research spans multiple interdisciplinary areas, bridging fundamental science and industrial applications to enhance material sustainability and performance.

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Education

Dr. Grafskaia earned her PhD in Physical and Mathematical Sciences from the Moscow Institute of Physics and Technology in November 2020. Her doctoral research focused on the real-time study of amphiphilic wedge-shaped sulfonate molecules’ self-organization, contributing to the understanding of polymer-like structures. Prior to this, she obtained a Master’s degree in Applied Mathematics and Physics, where she investigated self-assembling amphiphilic molecules for ion-exchange membranes. She also holds a Bachelor’s degree with excellence in the same discipline, with a research emphasis on 3D simulations of mesomorphous structures in ion-exchange membranes.

Experience

Throughout her career, Dr. Grafskaia has been actively involved in both academic research and industry collaborations. Her work has resulted in six completed or ongoing research projects and four consultancy projects in collaboration with industrial plants. She has played a pivotal role in the development of low-toxicity polymer compositions for cable insulation, improving safety and sustainability. Additionally, she has contributed to polymer material design for advanced fuel cell ion-exchange membranes, enhancing renewable energy applications. Her expertise extends to optical microscopy studies for molecular recognition of synthetic tetramers, advancing fundamental knowledge in material science.

Research Interests

Dr. Grafskaia’s research interests focus on polymer science, functional materials, self-assembled materials, and liquid crystals. She is particularly engaged in the synthesis and study of macromolecules, investigating their applications in energy storage, membrane technology, and industrial materials. Her work on amphiphilic molecules and polymer-like structures has provided crucial insights into material self-organization, contributing to advancements in both academic and industrial settings. She continues to explore new methods for enhancing material properties and sustainability.

Awards

Dr. Grafskaia has been nominated for the Women Research Award, recognizing her outstanding contributions to materials science. Her innovations in polymer compositions and self-assembled materials have had a significant impact on sustainable industrial applications, earning her recognition in academic and professional circles.

Publications

Grafskaia K.N., Anokhin D.V. (2023). “Self-organization of amphiphilic wedge-shaped molecules in ion-selective membranes,” Journal of Applied Polymer Science, cited by 8 articles.

Grafskaia K.N. (2022). “Optical microscopy for studying molecular recognition of synthetic tetramers,” Materials Chemistry and Physics, cited by 6 articles.

Grafskaia K.N., Ivanov M.S. (2021). “Low-toxicity polymer compositions for cable insulation,” Industrial Polymer Journal, cited by 5 articles.

Grafskaia K.N. (2020). “Experimental chamber design for in-situ investigation of polymer structures,” Advanced Materials Research, cited by 4 articles.

Grafskaia K.N. (2019). “Wedge-shaped amphiphiles in fuel cell membranes,” Energy & Environmental Science, cited by 10 articles.

Grafskaia K.N., Petrov A.D. (2018). “Mesomorphous structure simulations in ion-exchange membranes,” Journal of Molecular Liquids, cited by 7 articles.

Grafskaia K.N. (2017). “Liquid crystalline behavior of functional polymers,” Soft Matter, cited by 9 articles.

Conclusion

Dr. Grafskaia Kseniia Nikolaevna’s exceptional academic background, groundbreaking research, and impactful industry collaborations make her a highly deserving candidate for the Women Researcher Award. Her contributions to polymer science and functional materials have advanced both scientific understanding and practical applications, particularly in sustainability and industrial safety. With numerous publications, patents, and industry partnerships, she has demonstrated a commitment to innovation and excellence in research. As a woman in a highly technical field, her achievements serve as an inspiration for future generations of female scientists. Recognizing her with this award would not only honor her remarkable contributions but also encourage further advancements in scientific research led by women.