Mr. Yanzhao Dong , Associate Professor at Shihezi University,China
Dr. Yanzhao Dong π is an Associate Professor at the Department of Chemical Engineering, Shihezi University π«. He earned his Doctor of Engineering degree from Tianjin University ποΈ and completed a two-year postdoctoral fellowship at Zhejiang University and Zhejiang Xinhecheng Co., Ltd. π§ͺ. With extensive experience in catalyst amplification and project engineering βοΈπ§, his research centers on catalyst material design and heterogeneous catalyst applications π¬. As a vital member of various national R&D initiatives, including the β973β and β863β Programs π¨π³, he has published 30 SCI papers π and holds 8 patents globally ππ.
Β Β Professional Profile:
Β Scopus
πΉ Education and Experience:
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π Ph.D. in Engineering β Tianjin University
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π¬ Postdoctoral Research β Joint Postdoctoral Workstation of Zhejiang University & Zhejiang Xinhecheng Co., Ltd.
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π§βπ« Associate Professor β Department of Chemical Engineering, Shihezi University
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βοΈ Project & Catalyst Engineering Experience β 2 years of practical R&D involvement
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π¨π³ Participation in National Projects β Key member in β973β and β863β research programs
πΉ Professional Development:
Dr. Dong has steadily advanced his academic and research career through a combination of rigorous study and practical research experience ππ. His time in postdoctoral research significantly enhanced his expertise in catalyst scale-up and industrial application ππ. Actively involved in multiple national-level research projects, he has contributed to pioneering studies in catalysis and materials development π§ͺπ§¬. His work is marked by a strong integration of theoretical design and real-world application π§ π§. As a result, he has gained recognition for his scientific output, publishing 30 SCI-indexed articles π and securing 8 patents, including international PCT applications ππ.
πΉ Research Focus Category :
Dr. Yanzhao Dong’s research primarily focuses on heterogeneous catalysis and catalyst material design π¬βοΈ. His expertise lies in creating efficient and sustainable catalysts for industrial applications, including chemical synthesis and environmental remediation π±π. He emphasizes the development of structured catalysts with enhanced performance and longevity π§±π§. His work bridges the gap between lab-scale innovation and industrial-scale implementation, promoting green chemistry principles πΏβοΈ. From nano-level catalyst optimization to pilot-scale testing, his studies support sustainable chemical engineering solutions π§«π. His multidisciplinary approach combines materials science, reaction engineering, and environmental technology β»οΈπ§ͺ.
πΉ Awards and Honors:
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π Key Contributor to National β973β Program
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Research Recognition for participation in the β863β High-Tech Development Plan
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π 30 SCI Publications β Cited in international journals
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π§ͺ 8 Patents Filed β Including 6 Chinese and 2 international PCT patents
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π§βπ¬ Postdoctoral Fellowship at a national-level joint research platform
Publication Top Notes:
π 1. Highly Efficient and Rapid Adsorption of Dyes by Hollow Mesoporous Carbon Spheres
Citation:
Lu, Y., Wu, Q., Meng, X., Xu, Y., & Zhang, J. (2025). Highly efficient and rapid adsorption of dyes by hollow mesoporous carbon spheres. Separation and Purification Technology.
Summary:
This study introduces hollow mesoporous carbon spheres (HMCS) as a highly effective adsorbent for removing organic dyes from wastewater. The HMCS exhibit a large surface area and uniform pore distribution, facilitating rapid and efficient dye adsorption. The research demonstrates that these carbon spheres can achieve near-complete dye removal in a short time frame, highlighting their potential for practical wastewater treatment applications.
βοΈ 2. A Polydopamine-Mediated Crystalline/Amorphous Ru-RuOβ/Ni(OH)β Composite Catalyst for High Current Density Hydrogen Evolution Reaction
Citation:
Lai, L., Zhang, H., Zeng, J., Dong, Y., Jin, W., Li, C., Li, Y., Niu, Y., Zhang, J., Zhang, H., & Kong, A. (2025). A polydopamine-mediated crystalline/amorphous Ru-RuOβ/Ni(OH)β composite catalyst for high current density hydrogen evolution reaction. Molecular Catalysis.
Summary:
This research presents a novel composite catalyst composed of crystalline/amorphous Ru-RuOβ and Ni(OH)β, mediated by polydopamine (PDA), for efficient hydrogen evolution reactions (HER) at high current densities. The PDA layer enhances the stability and conductivity of the catalyst, resulting in improved HER performance. The study showcases the catalyst’s potential for sustainable hydrogen production in alkaline media.
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Suitability Summary for Best Researcher Award
Dr. Yanzhao Dong stands out as a top-tier researcher in the field of catalyst material design and heterogeneous catalysis π¬βοΈ. With a solid foundation from Tianjin University and advanced research during his postdoctoral tenure at Zhejiang University and Xinhecheng Co., Ltd. π§ͺπ, he has demonstrated excellence in both theoretical and applied chemical engineering. His work bridges laboratory innovation with industrial application, emphasizing sustainability and efficiency.
Conclusion:
Dr. Dong’s balance of scholarly productivity, technical innovation, and national-level engagement makes him a highly deserving candidate for the Best Researcher Award. His pioneering work not only contributes to scientific knowledge but also drives sustainable industrial transformationβperfectly aligning with the goals of such an honor. ππ