Zhaoju Yu | Ceramics | Best Researcher Award

Ā Prof .Zhaoju Yu | Ceramics | Best Researcher Award|

professor at Xiamen University, China

Zhaoju Yu is a Full Professor at the College of Materials, Xiamen University, China. She is recognized globally for her work in materials science and nanotechnology, with over 100 peer-reviewed papers and 8 patents. She has delivered 40 invited talks at major international conferences and has held prominent roles as Associate Editor for leading journals like the Journal of the American Ceramic Society. Zhaoju is an active participant in international collaborations, including a guest professorship at Technische UniversitƤt Darmstadt, Germany.

Profile

Scopus

Scholar

šŸŽ“ Education

Zhaoju Yu completed her academic studies in materials science, with advanced training in ceramic technology and nanomaterials. She further enriched her academic journey through a Humboldt Research Fellowship (2016) and international collaboration with Technische UniversitƤt Darmstadt. Her multidisciplinary education bridges materials chemistry, nanotechnology, and polymer-derived ceramics, which she applies to both her research and editorial roles in top scientific journals.

šŸ‘©ā€šŸ« Experience

Zhaoju Yu has extensive academic and research experience, beginning as a researcher in materials science and rising to her current position as Full Professor at Xiamen University. She has been a Guest Professor in Germany and an Associate Editor for leading journals. Zhaoju has presented at numerous prestigious international conferences and served as Guest Editor-in-chief for the Journal of the European Ceramic Society. She also holds positions on the editorial boards of various journals, contributing to her leadership in materials science.

šŸ† Awards and Honors

Prof. Yu has received numerous accolades, including the Humboldt Research Fellowship (2016), the prestigious ā€œECD Jubilee Global Diversity Award,ā€ and the title of ā€œACerS Global Ambassadorā€ (2022). Her recognition extends globally for her contributions to materials science, and she has been honored for her editorial work with top journals in ceramics and materials technology. Zhaoju’s awards highlight her status as a prominent figure in the international materials science community.

šŸ”¬ Research Focus

Zhaoju Yuā€™s research focuses on cutting-edge topics in materials chemistry and nanotechnology, including the synthesis of preceramic polymers, polymer-derived nanoscaled ceramics, and their functional properties. She explores the structural properties of advanced materials and contributes to understanding the role of ceramics in technology. Her research has earned her global recognition, reflected in her extensive publication record and her involvement in leading academic journals in ceramics and materials science.

Publications Top Notes:

 

  1. Single-source-precursor synthesis of dense monolithic SiC/(Ti0.25Zr0.25Hf0.25Ta0.25)C ceramic nanocomposite with excellent high-temperature oxidation resistance
    • L. Lu, T. Wen, W. Li, Q. Wen, Z. Yu, S. Tao, J. Yang, Y. Wang, X. Luan, X. Xiong
    • 2024

 

  1. Influence of heat treatment of amorphous Ti-and B-containing SiC-based fiber in air on microstructure and strength
    • J. Chen, B. Zhang, D. Xu, Z. Yu, G. He
    • 2018

 

  1. Molybdenum-based electrocatalysts with nanostructured supports for hydrogen evolution reaction
    • Y. Feng, Z. Yu
    • 2023

 

  1. Hard and tough novel high-pressure Ī³-Si3N4/Hf3N4 ceramic nanocomposites
    • W. Li, Z. Yu, L. Wiehl, T. Jiang, Y. Zhan, E. Ricohermoso III, M. Etter, E. Ionescu
    • 2023

 

  1. Single-source-precursor derived transition metal alloys embedded in nitrogen-doped porous carbons as efficient oxygen evolution electrocatalysts
    • Y. Chen, C. Tian, T. Jiang, C. Maheu, J. P. Hofmann, L. Molina-Luna, R. Riedel
    • 2022

 

  1. Editorial of the special issue on ultra-high temperature ceramic matrix composites
    • Z. Yu, X. Luan, R. Riedel
    • 2016

 

  1. Microwave-assisted synthesis of poly(epsilon-caprolactone) with acid as initiator and a novel method in preparation of drug release systems
    • Y. Song, L. J. Liu, Z. J. Yu, X. C. Weng, R. X. Zhuo
    • 2003

 

  1. In-situ formed porous silicon carbonitride/boron nitride composites to boost cathode performance in lithium sulfur batteries
    • F. Qu, Z. Yu, M. Widenmeyer, C. Tian, R. Yan, H. Tian, A. Kempf
    • 2024

 

  1. Kill two birds with one stone: Multifunctional porous SiOCā€“Fe2O3 composite for Li-ion energy conversion and electromagnetic wave absorption
    • C. Liu, P. Wu, S. Chen, Z. Su, S. Vishwakarma, X. Guo, Z. Zheng, J. Yu, S. Wen
    • 2022

 

  1. Single-source-precursor derived bulk Si3N4/HfBxN1-x ceramic nanocomposites with excellent oxidation resistance
    • W. Li, H. Du, C. Tian, T. Jiang, J. Bernauer, M. Widenmeyer, L. Wiehl
    • 2022

 

  1. Microstructure and mechanical properties of C/C composites modified by single-source precursor derived ceramics
    • J. Sun, Y. Wang, Y. Zhang, L. Guo, B. Liu, P. Zhang, Z. Yu
    • 2022

 

  1. Microwave irradiation effect on the polymerization of epsilon-caprolactone with benzoic acid as initiator
    • Z. J. Yu, L. J. Liu, Y. Song, R. X. Zhuo
    • 2003

 

  1. Single-source-precursor synthesis and high-temperature behavior of SiC ceramics containing boron
    • M. Gui, Y. Fang, Z. Yu
    • 2014

 

  1. Dielectric properties and electromagnetic wave absorbing performance of single-source-precursor-derived carbon-rich NbC-SiC-C nanocomposites
    • F. Li, H. Du, T. Chen, Q. Zhu, Z. Yu
    • 2023

 

  1. Phase evolution and oxidation resistance of Si3N4/HfB2/HfBxCyN1ā€“xā€“y ceramic nanocomposites prepared from tailored preceramic polymers
    • W. Li, M. Widenmeyer, J. Ding, T. Jiang, L. Feldmann, J. Liu, L. Molina-Luna
    • 2023

šŸ“ Conclusion

Prof. Zhaoju Yuā€™s remarkable achievements, including her extensive publication record, numerous awards, editorial roles, and global presence in materials science, position her as a strong candidate for the Best Researcher Award. Her contributions to materials chemistry, particularly in the field of polymer-derived ceramics, have made a significant impact on her field. However, securing more research funding, enhancing international collaboration, and translating her innovations into commercial applications could further elevate her profile. With these improvements, Prof. Yu could continue to be a frontrunner in her discipline and a deserving recipient of the award.