Nini Wen | Catalysis | Best Researcher Award

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Dr. Nini Wen | Catalysis | Best Researcher Award

Zhejiang Sci-Tech University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Nini Wen began her academic journey with a strong foundation in chemical engineering and materials science, culminating in the award of her Ph.D. in 2023. Shortly thereafter, she joined Zhejiang Sci-Tech University as a lecturer, where she continues to advance research at the intersection of environmental catalysis and materials chemistry.

💼 Professional Endeavors

Since her appointment, Dr. Wen has dedicated her academic career to the study and development of Selective Catalytic Reduction-Hydrocarbon (SCR-HC) catalysts, particularly focusing on novel catalytic systems like metal oxides, pillared interlayered clays (PILC), layered double hydroxides (LDHs), and atomic clusters. Her methodical approach integrates catalyst design with advanced characterization techniques to uncover fundamental catalytic properties and reaction mechanisms. She has completed one foundational research project and currently leads two additional national-level foundation projects, underscoring her growing research independence and leadership.

🧪 Contributions and Research Focus

Dr. Wen’s cutting-edge research lies in environmental pollution control and catalytic materials, particularly LDH-based catalysts for SCR-HC reactions. LDHs, known as emerging 2D layered materials, have seldom been utilized in this field. Her innovative work includes designing binary and ternary LDH catalysts, which leverage the synergistic effects of multi-metal components to enhance catalytic activity. She has thoroughly explored the impact of synergy on both the intrinsic physicochemical properties and catalytic mechanisms. Furthermore, her studies address real-world challenges by investigating how poisoning species such as H₂O, SO₂, and alkali metals influence catalyst performance and structural stability, making her contributions highly relevant for industrial applications.

🌍 Impact and Influence

Dr. Wen has made a significant mark in the catalysis community with over 20 peer-reviewed publications in high-impact journals including the Chemical Engineering Journal, Fuel, Journal of Environmental Chemical Engineering, and Molecular Catalysis. Her work continues to inspire new approaches in designing resilient and efficient environmental catalysts, positioning her as a promising young scholar in the field of applied catalysis.

📈 Academic Citations

Although early in her independent career, Dr. Wen’s publications are gaining recognition in the academic world, with citations steadily increasing. Her focus on mechanistic insight and application-driven research makes her work valuable for both academic studies and industrial implementations in pollution mitigation technologies.

🛠️ Technical Skills

Dr. Wen possesses a broad suite of experimental and analytical techniques essential to modern catalysis research. These include X-ray diffraction (XRD), BET surface area analysis, Fourier-transform infrared spectroscopy (FTIR), temperature-programmed desorption/reduction (TPD/TPR), and X-ray photoelectron spectroscopy (XPS), among others. These tools support her rigorous examination of structure-performance relationships in catalytic systems.

👩‍🏫 Teaching and Mentorship

As a lecturer, Dr. Wen is actively involved in undergraduate and graduate instruction. She integrates her research findings into the classroom to foster scientific curiosity and train students in environmental engineering and materials chemistry, laying the groundwork for future researchers.

🤝 Professional Memberships

Dr. Wen is a member of the Chemical Industry and Engineering Society of China, through which she engages in professional development and collaborative opportunities, staying current with trends in catalysis and environmental remediation technologies.

🌱 Legacy and Future Contributions

Dr. Wen’s pioneering work in LDH-based SCR-HC catalysis and pollution control positions her at the forefront of sustainable environmental technologies. Her future plans include exploring atomically dispersed catalysts, enhancing low-temperature catalytic activity, and developing next-generation catalyst systems with improved tolerance to industrial poisons. Her work is expected to play a vital role in the global effort to reduce industrial emissions and transition toward greener technologies.

📖Notable Publications

Preparation and de-NOₓ performance of C₃H₆-SCR over Cu-SAPO-44 catalyst
Authors: Zhou, H.; Zhang, H.; Wen, N.; Wang, X.; Xu, L.; Li, W.; Su, Y.
Journal: Chemical Industry and Engineering Progress
Year: 2023

Research on resistance of CuxNiyFez-LDHs derived catalysts to poisoning components and insight into the complex role of SO₂ on C₃H₆-SCR performance
Authors: Wen, N.; Zhou, H.; Ning, S.; Hu, M.; Deng, W.; Zhao, B.; Su, Y.
Journal: Journal of Environmental Chemical Engineering
Year: 2023

Research progress on supported Cu-based zeolite catalysts for the selective catalytic reduction of NOₓ with hydrocarbons
Authors: Ning, S.; Su, Y.; Yang, H.; Wen, N.
Journal: Chemical Industry and Engineering Progress
Year: 2023

Selective catalytic reduction of nitric oxide with propylene over one-step synthesized Cu-SAPO-44 catalysts
Authors: Zhang, H.; Zhou, H.; Wen, N.-N.; Wang, X.-R.; Xu, L.; Su, Y.-X.
Journal: Journal of Fuel Chemistry and Technology
Year: 2022

Study on CH₄-SCR performance by Ga-Fe catalysts supported on Ti-pillared interlayered clays (Ti-PILC)
Authors: Xu, G.-Q.; Su, Y.-X.; Wen, N.-N.; Zhang, H.; Liu, Q.; Deng, W.-Y.; Zhou, H.
Journal: Journal of Molecular Catalysis
Year: 2022

Synergy of CuNiFe-LDH based catalysts for enhancing low-temperature SCR-C₃H₆ performance: Surface properties and reaction mechanism
Authors: Wen, N.; Su, Y.; Deng, W.; Zhou, H.; Hu, M.; Zhao, B.
Journal: Chemical Engineering Journal
Year: 2022

 

Ashok Kumar SK | Chemical Sensors | Analytical Chemistry Award

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Dr. Ashok Kumar SK | Chemical Sensors | Analytical Chemistry Award

Vellore Institute of Technology, India

👨‍🎓Profiles

🏫 Early Academic Pursuits

He began his academic journey with a Master of Science (M.Sc.) in Industrial Chemistry from Kuvempu University in 1994. His thirst for knowledge and dedication to chemistry led him to pursue a Ph.D. at Thapar University, which he successfully completed in 2006. These foundational years laid the groundwork for his illustrious career in research and academia.

💼 Professional Endeavors

He currently serves as a Professor in the Department of Chemistry, School of Advanced Sciences, at the Vellore Institute of Technology (VIT), Tamil Nadu. Over the years, he has established himself as a prominent figure in the field of supramolecular chemistry, coordination and organometallic chemistry, materials chemistry, and analytical chemistry. His office at VIT stands as a hub for innovation and guidance for aspiring chemists.

🔬 Contributions and Research Focus

His research spans a broad spectrum of chemistry: Chemical Sensors: His work on chromogenic, fluorogenic, potentiometric, and voltammetric sensors has advanced analytical techniques. Chemotherapy Agents: Development of agents aimed at enhancing cancer treatment methodologies. Inorganic Ion-Exchange Materials: Applications in separation science, ion sensing, and catalysis. Nanocomposites & Porous Carbon Materials: Pioneering their use for water purification and environmental applications. Sustainable Chemistry: Focused on solvent extraction, membrane separation, and biofuel production from biomass. These endeavors highlight his commitment to addressing real-world problems through chemical innovation.

🌟 Impact and Influence

His work has significantly impacted the fields of materials and analytical chemistry. He has cultivated groundbreaking methods for sensing ions, enhancing water purification, and contributing to sustainable fuel technologies. His membership in professional societies such as the Chemical Research Society of India and the Indian Science Congress underscores his influence and active involvement in the scientific community.

📖 Academic Citations and Recognition

With an ORCID ID of 0000-0002-1723-3447 and Researcher ID E-7817-2011, His contributions are well-documented in prestigious journals. His Google Scholar profile (N9mJuGQAAAAJ) lists numerous citations, reflecting the global acknowledgment of his research.

🛠️ Technical Skills

He is adept at various analytical and experimental techniques: Development and application of chemical sensors. Synthesizing nanocomposites and exploring their properties. Designing ion-exchange materials for separation and catalysis. His technical expertise ensures precision and innovation in his research projects.

🧑‍🏫 Teaching Experience and Mentorship

As a professor, He has not only conducted groundbreaking research but has also inspired the next generation of scientists. His lectures and guidance at VIT have equipped students with the knowledge and skills needed to excel in chemical research.

🏆 Legacy and Future Contributions

His legacy is defined by his multifaceted contributions to chemistry and his ability to translate complex research into practical applications. Moving forward, he aims to: Further explore sustainable chemistry solutions. Enhance chemotherapy agents for better efficacy. Develop advanced sensors for environmental and biomedical applications. His unwavering commitment to science ensures his continued relevance and impact on the global stage.

🌍 A Vision for the Future

His journey reflects a blend of academic rigor, innovative research, and impactful teaching. His focus on sustainability and healthcare resonates with contemporary global challenges, positioning him as a leader in chemistry with a lasting legacy.

📖Notable Publications

  1. Systematic Computational Approaches on Biosorption of Fluoride on Chitin: Crossover from Conventional to Short and Strong Hydrogen Bonds
    • Authors: Malhan, A.H., Job, N., Francis, A.M., Ashok Kumar, S.K., Thirumoorthy, K.
    • Journal: ACS ES&T Water
    • Year: 2024
  2. Trace level detection of putrescine and cadaverine in food samples using a novel rhodanine-imidazole dyad and evaluation of its biological properties
    • Authors: Joseph, S., Ashok Kumar, S.K.
    • Journal: Journal of Hazardous Materials
    • Year: 2024
  3. A highly lipophilic terpyridine ligand as an efficient fluorescent probe for the selective detection of zinc(ii) ions under biological conditions
    • Authors: Panicker, R.R., Joseph, S., Dharani, S., Ashok Kumar, S.K., Sivaramakrishna, A.
    • Journal: Analytical Methods
    • Year: 2024
  4. Methods special issue: Recent advancement on fluorescent chemosensing and bioimaging
    • Authors: Sahoo, S.K., Ashok Kumar, S.K.
    • Journal: Methods
    • Year: 2024
  5. Chromene-chromene Schiff base as a fluorescent chemosensor for Th4+ and its application in bioimaging of Caenorhabditis elegans
    • Authors: Dua, A., Saini, P., Goyal, S., Sharma, H.K., Kumar Ramasamy, S.
    • Journal: Methods
    • Year: 2024

 

Bo Song | Quantum Biology | Best Researcher Award

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Prof. Bo Song | Quantum Biology | Best Researcher Award

University of Shanghai for Science and Technology, China

👨‍🎓Profiles

🌱 Early Academic Pursuits

Bo Song began his academic journey with a Ph.D. in condensed matter physics, which he earned in 2003 from the Institute of Physics and Chemistry at the prestigious Chinese Academy of Sciences (CAS). His doctoral research laid the foundation for his deep interest in quantum mechanics and its applications in interdisciplinary sciences.

💼 Professional Endeavors

After completing his Ph.D., Bo Song advanced his expertise through postdoctoral research at renowned institutions such as Peking University (China), the University of Regensburg, and the Technical University Dresden in Germany. From 2008 to 2016, he served as a professor at the Shanghai Institute of Applied Physics, CAS, before joining the University of Shanghai Science and Technology in 2016, where he continues to contribute to cutting-edge research.

🧪 Contributions and Research Focus

Bo Song’s groundbreaking work demonstrates quantum coherence in K+ ions confined in biological channels, providing an innovative perspective on high-flux ion transport with ultralow energy consumption. His interdisciplinary research spans neuroscience, chemistry, and physics, focusing on the quantum effects of THz photon-neuron coupling. These insights have substantial implications for understanding biological systems and advancing quantum biology.

🌍 Impact and Influence

With over 4,000 citations across 83 peer-reviewed publications, Bo Song has significantly influenced the fields of quantum biology and analytical chemistry. His collaboration with esteemed scientists, including Nobel Laureate Anthony J. Leggett, underscores the global recognition and relevance of his work.

📚 Academic Citations

Bo Song’s research has achieved remarkable visibility, with his contributions being widely cited in both experimental and theoretical studies. His citation index is accessible via ORCID (0000-0001-5600-106X), affirming his stature in the academic community.

🛠️ Technical Skills

Bo Song is proficient in advanced experimental and computational techniques essential for exploring quantum biological systems. His expertise includes quantum mechanics, THz spectroscopy, and neuron coupling analyses, which he has utilized to unravel complex biological phenomena.

🎓 Teaching Experience

Throughout his career, Bo Song has actively engaged in mentoring students and young researchers, fostering the next generation of scientists. His ability to integrate theoretical knowledge with practical applications has made him a respected educator.

🌟 Legacy and Future Contributions

Bo Song’s research is pioneering a new frontier in understanding biological processes through the lens of quantum mechanics. His work promises to inspire future breakthroughs in analytical chemistry and neuroscience. He remains committed to mentoring budding scientists and advancing the field of quantum biology, ensuring a lasting legacy in academia.

📖Notable Publications