Prof. Dr. Zhixiang Xie | Organic Chemistry | Best Researcher Award

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Prof. Dr. Zhixiang Xie | Organic Chemistry | Best Researcher Award

Prof. Dr. Zhixiang Xie | Organic Chemistry – Lanzhou University, China

Professor Zhixiang Xie is a highly accomplished researcher in the field of synthetic organic chemistry, specializing in total synthesis, biomimetic strategies, and advanced reaction methodologies. He has built a reputation for designing and executing complex synthetic routes for bioactive natural products, significantly advancing the understanding of stereoselective and catalytic processes. Over the course of more than twenty years, he has established a prolific academic career marked by innovation, international collaboration, and impactful scholarship. His research not only contributes to fundamental chemistry but also holds broad potential for pharmaceutical and material science applications.

Profile Verified:

ORCID

Education:

Professor Xie’s academic path began with rigorous training in chemical sciences, where he earned both his master’s and doctoral degrees in organic chemistry from a leading Chinese institution. During his early studies, he developed a deep understanding of organic synthesis, chemical reactivity, and mechanistic analysis. These formative years were crucial in shaping his research mindset, enabling him to approach synthetic challenges with a combination of creativity and precision. His formal education laid the foundation for what would become a deeply impactful career in the chemical sciences.

Experience:

Following his doctoral studies, Professor Xie undertook postdoctoral research at one of China’s premier research universities, collaborating with prominent figures in synthetic chemistry. His postdoctoral work further refined his skills in stereoselective synthesis and natural product construction. In the years that followed, he rapidly progressed through academic positions, achieving full professorship. His appointment as a senior visiting fellow at Stanford University allowed him to engage in high-level collaborative research and integrate cutting-edge synthetic strategies from one of the world’s leading laboratories. Throughout his academic tenure, he has supervised numerous graduate students and postdocs, fostering a culture of research excellence.

Research Interest:

Professor Xie’s research interests center around the total synthesis of structurally complex natural products, particularly those with antiviral, anticancer, and neuroprotective activity. He is especially drawn to biomimetic synthesis, where he emulates nature’s strategies to construct intricate molecular frameworks. His work often integrates asymmetric catalysis, C–H activation, photoredox systems, and cascade reactions to achieve highly efficient and selective syntheses. Additionally, he explores the design of new synthetic methodologies for building functional organic molecules, contributing to the fields of medicinal chemistry, sustainable chemistry, and molecular innovation.

Award:

Professor Xie’s exceptional research contributions have been recognized with several national and institutional honors. He was selected for the Program for New Century Excellent Talents in University by the Ministry of Education, a prestigious award recognizing academic leadership and innovation. In recognition of his synthetic achievements, he received the NHU-CJC Innovation Award, honoring his creative breakthroughs in organic synthesis. Furthermore, he has been designated as a Science and Technology Expert in Gansu Province and named a Senior Member of the Chinese Chemical Society, reflecting the broad impact of his scientific contributions across China.

Publication:

📘 Asymmetric total synthesis of benzenoid cephalotane-type diterpenoids (2025), Nature Communications, cited by 25 articles.
🔬 Total Synthesis of Berkeleyone A and Preaustinoid A through Epoxypolyene Cyclization (2025), Angewandte Chemie International Edition, cited by 17 articles.
🧪 Cocrystal of Configurational/Conformational Isomers in Energetic Materials (2025), Journal of Organic Chemistry, cited by 10 articles.
🌿 Scalable Total Synthesis of (+)- and (–)-Codonopiloneolignanin A (2021), Organic Letters, cited by 43 articles.
🔍 Biomimetic Synthesis of Psiguajdianone (2019), Organic Letters, cited by 58 articles.
⚗️ Visible-Light-Induced Charge Transfer Enables Csp³–H Functionalization (2020), Organic Letters, cited by 61 articles.
🧬 Enantioselective aerobic oxidative coupling of glycine derivatives (2020), Chemical Science, cited by 48 articles.

Conclusion:

Professor Zhixiang Xie is a leading researcher whose career exemplifies excellence in innovation, scholarship, and academic leadership. His groundbreaking work in synthetic organic chemistry continues to expand the frontiers of the discipline, offering new tools, frameworks, and insights that have applications far beyond the laboratory. With a strong record of publications, respected awards, and a commitment to training the next generation of scientists, Professor Xie is an ideal candidate for the Best Researcher Award. His work not only contributes to the advancement of chemistry but also resonates with the mission of fostering impactful and transformative scientific research.

 

 

 

Prof. Dr. Mu-Hua Huang | Organic | Best Researcher Award

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Prof. Dr. Mu-Hua Huang | Organic | Best Researcher Award

Prof. Dr. Mu-Hua Huang | Organic – Beijing Institute of Technology, China

Professor Mu-Hua Huang is a distinguished researcher in polymer chemistry, renowned for his pioneering work on porous organic polymers and functional materials. He has contributed extensively to the synthesis and application of advanced macromolecular structures for catalysis, energy conversion, membrane separation, and environmental remediation. Currently serving as a professor at Beijing Institute of Technology, he leads a dynamic research group committed to sustainable innovation in material science.

Profile Verified:

ORCID | Scopus

Education:

Professor Huang earned his Ph.D. in Organic Chemistry from the Institute of Chemistry, Chinese Academy of Sciences, where he developed a strong foundation in polymer synthesis and structure-function relationships. He expanded his expertise through postdoctoral appointments at ETH Zurich and the University of Liverpool, where he specialized in supramolecular systems and catalytic polymerization processes. These experiences enriched his interdisciplinary perspective and international collaborations.

Experience:

Since joining the faculty at Beijing Institute of Technology in 2012, Professor Huang has directed numerous national and regional research projects supported by the National Natural Science Foundation of China and other governmental agencies. He has established advanced laboratories and cultivated a team of young researchers who are now active contributors in academia and industry. His dedication to both fundamental and applied research has positioned him as a leader in functional polymer materials and sustainable technologies.

Research Interests:

Professor Huang’s research is focused on the design and synthesis of porous organic frameworks, functional membranes, and supramolecular polymer systems. His primary interests lie in gas adsorption and separation, CO₂ capture and conversion, energy storage, and the recovery of precious metals. By integrating synthetic organic chemistry with polymer engineering and environmental applications, he continues to develop next-generation materials that address pressing global challenges in energy and sustainability.

Awards:

While individual honors are not explicitly listed, Professor Huang’s research excellence has been consistently recognized through prestigious grants and long-term institutional support. These include multiple projects funded by the National Natural Science Foundation of China and municipal science and technology commissions, underscoring his high-impact contributions and leadership within the scientific community.

Publications 📚:

  • 🧪 “Flexible porous organic polymers with 1,2-diol subunits favoring the high loading of Pd nanoparticles,” Nanoscale, 2025. Cited for enabling stable and efficient catalysts through high Pd dispersion.
  • 🌫️ “Highly porous polysalicylates via Grignard reagent triggered ‘three-in-one’ polyesterification,” Journal of Membrane Science, 2025. Cited for advancing selective membrane technologies in separation science.
  • 💨 “Porous Polyketones with a Well-Defined 1,3,5-Triphenyloylbenzene Subunit for Functional Gas Adsorption,” ACS Applied Polymer Materials, 2025. Referenced for innovative framework design in gas capture applications.
  • ♻️ “Porous Polypyrrolidines for Highly Efficient Recovery of Precious Metals,” Advanced Materials, 2024. Noted for introducing a sustainable strategy for noble metal recycling.
  • 🌍 “Improved synthesis of porous C2N for CO₂ conversion to formamides,” Journal of Polymer Science, 2024. Highlighted for promoting carbon utilization and green chemistry.
  • 🔋 “Incorporation of Azo-Linkage to Elevate the Redox Potential of Triphenylamine-Based POP Cathodes,” ACS Applied Energy Materials, 2023. Cited in work on organic electrode materials for energy storage.
  • ⚡ “Supramolecular polyoxometalate organic frameworks (SPOFs) with tunable redox properties for energy storage and environmental remediation,” Chemical Science, 2025. Recognized for novel supramolecular framework design in electrochemical applications.

Conclusion:

Professor Mu-Hua Huang’s career exemplifies scientific rigor, creativity, and a commitment to sustainable advancement in materials science. His interdisciplinary work bridges chemistry and environmental engineering, offering practical solutions to global energy and resource challenges. His innovative research, high-impact publications, and dedicated mentorship make him an outstanding nominee for the Best Researcher Award. Honoring Professor Huang through this recognition would celebrate a scientist whose work continues to inspire meaningful scientific and societal progress.

 

 

 

Dr. Xiaoyu Lin | Environmental Science | Best Researcher Award

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Dr. Xiaoyu Lin | Environmental Science | Best Researcher Award

Dr. Xiaoyu Lin | Environmental Science – Huazhong University of Science and Technology, China

Dr. Xiaoyu Lin is an accomplished researcher affiliated with Jeonbuk National University in South Korea, known for her interdisciplinary work at the intersection of materials science, environmental chemistry, and computational modeling. Her scientific output, reflected in 18 peer-reviewed publications and an h-index of 11, has attracted 284 citations across 228 academic documents, indicating a growing influence in her field. With a firm grounding in theoretical and applied research methodologies, Dr. Lin continuously explores innovative ways to solve pressing industrial and ecological challenges, particularly in the area of sustainable material design and resource recovery.

Profile:

Scopus

Education:

Dr. Lin’s educational background is firmly rooted in scientific inquiry and advanced research. She completed her doctoral-level education with a focus on the application of density functional theory (DFT) to design environmentally responsive materials. Her academic training provided a strong foundation in physical chemistry, polymer science, and environmental remediation, equipping her with both theoretical expertise and practical laboratory skills essential to the development of advanced functional materials.

Experience:

Professionally, Dr. Lin is based at Jeonbuk National University, where she plays an active role in research and academic collaboration. Her experience includes significant contributions to both individual and group research projects, showcasing her capabilities in multidisciplinary teamwork and scientific communication. She has authored and co-authored numerous high-impact papers, collaborating with researchers across multiple countries and disciplines. Through this work, she has helped shape experimental designs, conduct theoretical modeling, and produce valuable findings for publication.

Research Interests:

Dr. Lin’s research interests span computational materials science, bio-based adsorbents, environmental sustainability, and metal ion recovery. She is particularly passionate about combining DFT simulations with experimental synthesis to develop materials capable of selective ion adsorption, pH responsiveness, and environmental remediation. Her focus on sustainable solutions and circular economy principles drives her investigations into chitosan-based biopolymers, eco-friendly adsorbents, and advanced modeling techniques for wastewater treatment and heavy metal removal.

Awards:

While Dr. Lin has not yet received formal individual awards, her rising academic profile and publication impact suggest she is on a clear trajectory toward national and international recognition. Her growing number of citations, scholarly collaborations, and recent involvement in high-impact research projects reflect the respect she commands within the research community and signal her readiness for future distinctions such as the Best Researcher Award.

Publications:

Below are seven of Dr. Lin’s most relevant publications, highlighting both academic contribution and citation performance:

  • 🧪 “DFT-guided structural design of functionalized chitosan for selective Ag(I) recovery across a broad pH range”, Separation and Purification Technology, 2025 – cited by 0 articles.
  • 🌱 “Selective removal of Pb(II) using cross-linked chitosan derivatives: Adsorption behavior and DFT insights”, Chemical Engineering Journal, 2024 – cited by 12 articles.
  • ⚙️ “Computational screening of bio-polymers for heavy metal remediation: A DFT-based approach”, Journal of Hazardous Materials, 2023 – cited by 18 articles.
  • 🌊 “pH-responsive chitosan composites for wastewater treatment: Synthesis, characterization and modeling”, Environmental Science and Pollution Research, 2023 – cited by 15 articles.
  • 🔬 “Eco-friendly synthesis of chitosan beads for Cr(VI) removal: Experimental and theoretical synergy”, Carbohydrate Polymers, 2022 – cited by 20 articles.
  • 🧬 “Metal ion recognition by modified polysaccharides: A DFT and FTIR combined study”, Materials Chemistry and Physics, 2022 – cited by 14 articles.
  • 💧 “Biopolymer-based systems for Cu(II) adsorption: Modeling and application perspectives”, Journal of Molecular Liquids, 2021 – cited by 13 articles.

Conclusion:

In conclusion, Dr. Xiaoyu Lin has built an impressive academic profile through impactful research, interdisciplinary collaboration, and a commitment to sustainable innovation. Her publications demonstrate a mastery of both theoretical modeling and experimental application, and her growing citation record indicates strong peer recognition. As an emerging leader in the field of materials for environmental applications, she represents an outstanding candidate for the Best Researcher Award. With further opportunities for research funding and leadership, she is well-positioned to make long-lasting contributions to science and society.