Mr. dexuan xiang, Huaihua University, China.
Dr. Dexuan Xiang is a professor at the College of Chemistry and Materials, Huaihua University, China. His research focuses on catalytic chemistry, green synthesis, and sustainable materials. He has pioneered palladium-immobilized lignin-based hypercrosslinked polymers for eco-friendly Suzuki-Miyaura reactions. His work, published in Applied Surface Science, highlights innovations in heterogeneous catalysis. With multiple high-impact publications, Dr. Xiang’s contributions advance renewable resources and green chemistry. His research enhances catalyst efficiency, recyclability, and environmental sustainability, making a significant impact in modern chemistry. ⚗️
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Suitability for Best Researcher Award
Dexuan Xiang, PhD, a professor at Huaihua University, has made significant contributions to catalytic chemistry. His research on palladium-immobilized lignin-based hypercrosslinked polymers presents an innovative and sustainable approach to heterogeneous catalysis. Achieving high yields in Suzuki-Miyaura reactions with minimal palladium content, his work enhances efficiency, recyclability, and cost-effectiveness. His pioneering research makes him a strong candidate for the Best Researcher Award.
🎓 Early Academic Pursuits
Dexuan Xiang, PhD, embarked on his academic journey with a strong foundation in chemistry and materials science. His early education was marked by excellence, leading him to pursue advanced studies in catalytic chemistry. His passion for sustainable solutions in organic synthesis motivated him to explore innovative approaches to catalyst development.
💼 Professional Endeavors
Currently serving as a Professor at the College of Chemistry and Materials, Huaihua University, China, Dr. Xiang has dedicated his career to pioneering research in heterogeneous catalysis. His work involves designing novel catalysts that enhance efficiency and sustainability in chemical reactions. His professional achievements include numerous publications and active participation in cutting-edge research initiatives.
🔬 Contributions and Research Focus
Dexuan Xiang’s primary research revolves around heterogeneous catalysis, particularly in the development of sustainable and efficient catalytic systems. One of his groundbreaking contributions is the immobilization of palladium on lignin-based hypercrosslinked polymers, significantly improving the recyclability and efficiency of Suzuki-Miyaura reactions. His work tackles the key challenges of high-cost, poor recyclability, and sustainability in organic synthesis.
His notable research includes:
- Development of novel hypercrosslinked polymer-based catalysts
- Optimization of reaction conditions for green chemistry applications
- Enhancing the efficiency of Suzuki-Miyaura coupling reactions in water
- Utilization of renewable lignin sources for catalyst support
🌍 Impact and Influence
Dexuan Xiang’s research has far-reaching implications in both academic and industrial sectors. His work contributes to eco-friendly catalysis, reducing the reliance on expensive and non-recyclable catalysts. The impact of his research extends to:
✅ Sustainable chemistry – promoting the use of renewable materials like lignin
✅ Cost-effective synthesis – developing affordable and reusable catalysts
✅ Industrial application – providing a practical solution for large-scale production
✅ Advancing green chemistry principles – minimizing environmental harm while maximizing efficiency
🔮 Legacy and Future Contributions
Through his pioneering efforts, Dr. Xiang has set a new benchmark in catalyst development. His innovative approach to utilizing lignin for catalyst synthesis opens avenues for further exploration in green chemistry. His future endeavors aim to expand the applications of these catalysts in diverse organic reactions, ensuring sustainable and cost-effective chemical synthesis.
Publications Top Notes
“Imidazolium and Pyridine Bifunctionalized Hypercrosslinked Polymers as Efficient and Recyclable Catalysts for CO₂ Cycloaddition”
Journal: Polymer
Publication Date: October 2024
Citations: 1
“Palladium Supported on Triazolyl-Functionalized Hypercrosslinked Polymers as a Recyclable Catalyst for Suzuki–Miyaura Coupling Reactions”
Journal: RSC Advances
Publication Date: May 2020
Citations: 10
“Palladium Immobilized on 2,2′-Dipyridyl-Based Hypercrosslinked Polymers as a Heterogeneous Catalyst for Suzuki–Miyaura Reaction and Heck Reaction”
Journal: Catalysis Letters
Publication Date: September 2020
Citations: 4
“Palladium Catalyst Immobilized on Functionalized Microporous Organic Polymers for C–C Coupling Reactions”
Journal: RSC Advances
Publication Date: October 2019
“Palladium Immobilized on Functionalized Hypercrosslinked Polymers: A Highly Active and Recyclable Catalyst for Suzuki–Miyaura Coupling Reactions in Water”
Journal: New Journal of Chemistry
Publication Date: June 2019
“One-Pot Synthesis of Pyrano[2,3-b]quinolines from Enaminones under Solvent-Free Conditions”
Journal: Synlett
Publication Date: August 2011
“Efficient and Divergent Synthesis of Cyclophosphamide Analogues from 2-Arylamino-3-acetyl-5,6-dihydro-4H-pyrans”
Journal: Chemical Communications
Publication Date: 2008
“A Facile and Efficient Synthesis of Polyfunctionalized Pyridin-2(1H)-ones from β-Oxo Amides under Vilsmeier Conditions”
Journal: Organic Letters
Publication Date: Data not specified
Achieving carbon neutrality through conversion of CO2 to cyclic carbonates using bifunctional benzimidazolium-based pyridine hypercrosslinked polymers
Authors: Y. Shu, Z.Y. Yang, W.K. Pan, Z. Zhang, G. Chen
Journal: Applied Surface Science, 2025
Lignin-based hyper-cross-linked resin as an adsorbent for aniline from aqueous solution
Authors: G. Chen, D. Xiang, Z. Luo, X. Xie, B. Xiang
Journal: International Journal of Biological Macromolecules, 2025