Chen-Ning Li | Chemistry | Best Researcher Award

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Dr. Chen-Ning Li | Chemistry | Best Researcher Award

Dr. Chen-Ning Li | Chemistry | Liaoning University | China

Dr. Chen-Ning Li is an accomplished researcher in the field of chemical engineering, specializing in the design and synthesis of advanced porous materials, particularly metal-organic frameworks (MOFs). His scientific work is primarily focused on addressing environmental challenges through the development of novel materials for gas separation and carbon capture applications. Dr. Li has demonstrated a consistent track record of publishing in reputed journals and engaging in high-level collaborations with international researchers. With deep expertise in molecular-level design strategies and catalytic frameworks, he has positioned himself as a leading contributor to the advancement of sustainable separation technologies and functional materials science. His research is recognized for its innovation, practical relevance, and methodological rigor.

Academic Profile:

ORCID

Scopus

Education:

Dr. Chen-Ning Li completed his doctoral studies in Chemical Engineering, where his focus was on porous materials and adsorption mechanisms in gas separation systems. Throughout his academic journey, he has cultivated a multidisciplinary knowledge base that combines material chemistry, catalysis, and engineering applications. His education has provided him with strong theoretical foundations and advanced experimental training, equipping him with the skills to tackle real-world problems in energy efficiency and environmental protection. His postgraduate work was conducted under prominent researchers in the field, further enhancing his capacity to lead in complex, research-intensive environments.

Experience:

Dr. Chen-Ning Li has accumulated significant research experience across academic and applied settings, contributing to both fundamental scientific advancements and industry-relevant outcomes. He has participated in multiple high-impact research projects, collaborating with global teams on challenges related to gas purification and carbon dioxide utilization. His experience spans the synthesis of functionalized MOFs, process optimization for gas separation, and structural engineering of materials at the nanoscale. In addition to laboratory work, Dr. Li has been actively involved in mentoring students, coordinating research efforts, and contributing to peer-review activities for various scientific journals. His academic responsibilities have also included guest lecturing, organizing research seminars, and assisting in the supervision of postgraduate theses.

Research Interest:

Dr. Chen-Ning Li’s research interests are centered on gas separation technologies using MOFs, carbon capture, and catalytic CO₂ conversion. He is particularly interested in the molecular engineering of framework materials to improve their selectivity and capacity for gas adsorption. His work explores the role of pore structure, surface chemistry, and defect modulation in enhancing material performance. Moreover, he is exploring strategies for tuning the microenvironment within MOFs to promote highly efficient separation of industrial gas mixtures. This line of research is integral to energy sustainability, and his work has applications in cleaner production processes, petrochemical refinement, and climate change mitigation.

Awards:

Dr. Chen-Ning Li has received recognition for his impactful contributions to scientific research, particularly in the field of material science and chemical engineering. He has been nominated for several institutional and international awards highlighting his excellence in research and innovation. His work has been acknowledged by peers and collaborators for its originality and relevance to solving global environmental challenges. His achievements reflect a dedication to high-impact research that supports the advancement of science and sustainable development.

Selected Publications:

  • Tartaric acid-functionalized MOF-808 with tailored ultramicroporous for efficient separation of C₂H₂ from C₂H₂/C₂H₄/CO₂ mixture, published in Chemical Engineering Journal, 2025 (Citations: 21)

  • Tuning the Pore Microenvironment of Metal–Organic Frameworks for Boosting CO₂ Fixation, published in ChemSusChem, 2025 (Citations: 17)

  • Understanding pore features of pillar-layered MOFs on one-step C₂H₄ purification from C₂H₆/C₂H₄ mixtures, published in Separation and Purification Technology, 2025 (Citations: 14)

  • Facet-dependent reactive oxygen species generation regulates photocatalytic oxidation of benzylamines, published in Journal of Catalysis, 2025 (Citations: 10)

Conclusion:

Dr. Chen-Ning Li is a highly dedicated and skilled researcher whose work continues to make significant contributions to material science, environmental engineering, and sustainable technology development. His innovative approach to the design of functional MOFs for gas separation and carbon capture addresses some of the most pressing environmental challenges of today. With a proven publication record, interdisciplinary collaborations, and growing recognition in the scientific community, Dr. Li demonstrates strong potential for future leadership in research and academic excellence. His nomination for this award is a testament to his commitment to advancing science for societal benefit.

 

 

Mohamed Tawfik | Chemistry | Innovative Research Award

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Assoc. Prof. Dr. Mohamed Tawfik | Chemistry | Innovative Research Award

Assoc. Prof. Dr. Mohamed Tawfik | Chemistry – Asscioate professor at Egyptian Atomic Energy Authority’s, Egypt

Dr. M. S. Tawfik is a distinguished Associate Professor of Radiochemistry at the Egyptian Atomic Energy Authority, with a professional career spanning over 20 years in nuclear environmental science. He is widely respected for his contributions to the safety, sustainability, and environmental assessment of nuclear and thermal power systems. Throughout his career, Dr. Tawfik has worked at the intersection of environmental chemistry and radiological safety, becoming a key expert in assessing and mitigating the ecological impacts of radionuclides in marine, terrestrial, and atmospheric systems. His research has played a significant role in advancing scientific understanding and public policy surrounding nuclear facility siting, biocide use, and cooling water discharge impacts.

Profile Verified:

ORCID

Education:

Dr. Tawfik received his Doctorate (Ph.D.) in Environmental Chemistry from Alexandria University in 2006, with a specialization in environmental health. His academic foundation in environmental chemistry equipped him with interdisciplinary expertise crucial for analyzing complex environmental challenges related to radiological contamination. The integration of chemical science, environmental modeling, and health risk evaluation in his training laid the groundwork for his future innovations in nuclear site assessment and environmental radiochemistry.

Experience:

Currently serving as Associate Professor in the Siting and Environmental Department of the Egyptian Atomic Energy Authority, Dr. Tawfik leads several projects related to radiochemical analysis, cooling water safety, and nuclear environmental monitoring. He is actively involved in teaching, supervising postgraduate students, and publishing research that informs national safety regulations. He also contributes globally through his editorial roles, including Associate Editor for the Journal of Analytical Chromatography and Spectroscopy and the Journal of Environment and Pollution. His academic appointments and active presence in international scientific committees reflect his status as a leader in his field.

Research Interest:

Dr. Tawfik’s research focuses on radionuclide behavior in environmental matrices, nuclear cooling water treatment technologies, environmental impact assessments (EIA) of nuclear and thermal power plants, and ecological modeling. He frequently utilizes risk modeling software such as ERICA and RESRAD-BIOTA to predict and simulate the bioaccumulation of radioactive elements and chemical agents. His research provides scientific evidence used in regulatory frameworks and environmental licensing decisions, especially in sensitive coastal and marine zones. He also explores the use of eco-safe alternatives in biocide applications to minimize environmental damage from nuclear cooling systems.

Awards and Recognitions:

While formal public records of awards are limited, Dr. Tawfik’s influence in the scientific community is evident through his numerous peer-reviewed publications, invited editorial roles, and international collaborations. His selection as an editorial board member and associate editor in journals focused on environmental science and chromatography signifies his recognition as a trusted evaluator of innovative research. Additionally, his repeated citations and global interest in his work reflect peer acknowledgment and thought leadership in radiochemistry and environmental safety.

Selected Publications 📚:

📘 Environmental Impact Assessment for Evaluation of Chemical, Ecological, and Economic Consequences of Using NNPS for Seawater Desalination, Essential Chem (2024) – Cited by 8 articles.
🌊 Risk Assessment of Natural Radionuclides and Trace Elements of Industrial Activities in Suez Bay, Soil and Sediment Contamination (2024) – Cited by 12 articles.
☢️ Risk Assessment of Atmospheric and Liquid Discharges of Radionuclides on Human, Marine Biota, and Terrestrial Wildlife, Stochastic Environmental Research and Risk Assessment (2020) – Cited by 35 articles.
🧪 Evaluation of Cooling Water Systems of Nuclear Power Plants Using ERICA and RESRAD-BIOTA Models, Arab Journal of Nuclear Science and Applications (2022) – Cited by 15 articles.
🐟 Bioaccumulation of Natural Radionuclides in Aquatic, Riparian and Terrestrial Animals Along Suez-Azzafrana Coastline, International Journal of Radiation Biology (2023) – Cited by 10 articles.
🌍 Evaluation of Cs-137 and Natural Radionuclides on Different Marine Biota Along Beheira Governorate Coast, International Journal of Radiation Biology (2023) – Cited by 9 articles.
🔥 Simulating the Environmental Risks of Using Different Biocides in Cooling Systems of Coastal Nuclear Power Plants, J. Eco. Health & Environment (2021) – Cited by 11 articles.

Conclusion:

Dr. M. S. Tawfik exemplifies excellence in research innovation, scientific leadership, and public service in the radiochemical and environmental safety sectors. His work addresses real-world challenges in nuclear facility operations and environmental protection, providing practical solutions that support sustainable energy development. With an outstanding record of peer-reviewed research, international collaboration, and a clear impact on public safety and ecological policy, Dr. Tawfik is a highly deserving nominee for the Innovative Research Award. His contributions not only enhance scientific knowledge but also promote responsible and environmentally sound technological advancement.