Dr. Keke Zhi is a well-established researcher whose work spans environmental chemistry, catalysis, and functional materials. As an Associate Professor and a recipient of the prestigious “Tianshan Talents – Young Top Talents” award, he has demonstrated both research excellence and leadership. His research programs are nationally and regionally funded, highlighting recognition from major scientific institutions. Dr. Zhi’s prolific publication record in high-impact journals and his interdisciplinary work in wastewater treatment, CO₂ reduction, and lithium extraction position him as a leading innovator in applied chemical research.
📘 Education & Experience
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🏫 B.S. (2009–2013) – Ludong University
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🎓 Ph.D. (2013–2018) – University of Chinese Academy of Sciences
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👨🏫 Associate Professor – China University of Petroleum (Beijing), Karamay Campus
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🎯 Master Tutor – Mentoring graduate-level students
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🌟 Young Top Talent – Xinjiang Uygur Autonomous Region “Tianshan Talents” Program
Professional Development 🚀📖
Dr. Zhi has actively pursued diverse research programs funded by national and regional agencies 📈. His development includes leading NSFC projects on MOF-based catalysts for pollutant degradation 🔬 and contributing to lithium extraction technology from salt lake brines 🧪. His multidisciplinary collaboration is reflected in co-authored papers across journals like Chemical Engineering Journal and Nanomaterials 📄. Through ongoing research and mentorship 👨🏫, Dr. Zhi fosters a vibrant academic environment, continually expanding his expertise in environmental and catalytic chemistry 🌐. He also supports innovation by transforming biomass into functional materials 🌾 and exploring new frontiers in ion-imprinting technology.
Research Focus 🔍🤖
Dr. Zhi’s research centers on functional material synthesis for environmental and catalytic applications ⚗️. He specializes in surface and ion-imprinted materials for targeted extraction and degradation processes 🎯. His work on MOFs and graphene composites enables efficient degradation of pharmaceuticals and pollutants in wastewater 🌊. Additionally, he explores the conversion of biomass into high-value chemicals 🌿 and advances lithium extraction methods vital for clean energy storage 🔋. Bridging chemistry and sustainability, Dr. Zhi’s research supports eco-friendly solutions to modern industrial challenges ♻️, with significant emphasis on green catalysis and selective adsorption technologies 🌱.
Awards and Honors 🏆🎖️
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🌟 “Tianshan Talents” Young Top Talent – Xinjiang Uygur Autonomous Region
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🧪 Multiple Funded Research Projects – National Natural Science Foundation of China (NSFC) & regional foundations
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📈 First Author & Corresponding Author – Published in high-impact journals (Chemical Engineering Journal, Polymers, Nanomaterials, etc.)
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📚 Recognized Scholar – For contributions to catalytic and environmental chemistry
Publications & Citations 📚
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📘 N-doped graphene loaded with Ru sites as PMS activators for SMX degradation – Chemical Engineering Journal, 2025 🔬
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🔧 Graphical Pinch Analysis for heat exchanger networks retrofit in residuum hydrogenation – Energy, 2024 📊
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💧 Progress of Ion Imprinting Technology in Lithium Extraction – Polymers, 2024 🧪
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🧼 Elimination of Organic Contaminants using Iron-Based MOFs – Nanomaterials, 2024 🧲
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🌱 Review on CO₂ Utilization and Emission Reduction from Chemical Engineering Perspective – Process Safety and Environmental Protection, 2023 🏭
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🌿 Selective Adsorption of Quercetin by Sol-Gel Surface Molecularly Imprinted Polymer – Polymers, 2023 ⚗️
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🌊 Review of Activation Persulfate by Iron-Based Catalysts for Wastewater Degradation – Applied Sciences, 2021 🚰
✅ Conclusion
Dr. Keke Zhi exemplifies the qualities of a Best Researcher Award recipient through his cutting-edge scientific contributions, strong publication record, and sustained impact on environmental and catalytic chemistry. His ability to address global challenges like pollution, resource extraction, and sustainability through innovative material science makes him a standout candidate. His work not only advances science but also has practical, scalable applications that benefit society.