Chong-Qing Wan | Data Quality Enhancement | Best Researcher Award

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Prof. Chong-Qing Wan | Data Quality Enhancement | Best Researcher Award

Capital Normal University | China

Prof. Chong-Qing Wan is a distinguished professor in the Department of Chemistry at Capital Normal University, Beijing, recognized for his extensive contributions to functional coordination chemistry and framework materials, with a research record comprising 83 scientific documents, an h-index of 24, and 1,987 citations from 1,717 documents. He earned a BA in chemistry from Xinyang Normal University, an MS from Nankai University with research on coordination complexes, and later completed his PhD under Prof. Thomas C. W. Mak at The Chinese University of Hong Kong. His work spans the synthesis, characterization, and application of metal–organic frameworks (MOFs), covalent–organic frameworks (COFs), ionic-liquid-based hybrids, and energy-related materials. He has published impactful studies in Nature Communications, Angewandte Chemie, and Chemistry of Materials, contributing to advances in MOF/COF meltability, glass formation, proton-conductive crystalline ionic liquids, and atomically precise nanoclusters. His research interests include functional coordination complexes, energy-storage materials, photocatalysis, and phase-transition mechanisms in porous frameworks. Throughout his academic career, he has been recognized for high-impact publications and sustained contributions to materials chemistry. Continuing to advance the field through innovative synthesis strategies and collaborative research, he remains a leading figure in framework-based materials and functional molecular systems.

Profiles : Scopus | Orcid

Featured Publications

Xue, W. L., Li, G. Q., Chen, H., Han, Y. C., Feng, L., Gu, X. L., Hu, S. Y., Deng, Y. H., Tan, L., Dove, M. T., Li, W., Zhang, J., Dong, H., Chen, Z., Deng, W. H., Xu, G., & Wan, C.-Q. (2024). Melt-quenched glass formation of a family of metal–carboxylate frameworks. Nature Communications, 15, 2040.*

Gu, X. L., Zhao, L., Sun, J., Cui, X. K., Li, G. Q., Hu, S. Y., Deng, Y. H., Li, Z., Li, K., Wang, H., & Wan, C.-Q. (2024). Synthesis and properties of zwitterionic covalent organic framework (COF): The meltability strategy and processability. Chemistry of Materials, 36, 2674–2684.*

Xue, W.-L., Deng, W.-H., Chen, H., Liu, R.-H., Taylor, J. M., Li, Y.-K., Wang, L., Deng, Y.-H., Li, W.-H., Wen, Y.-Y., Wang, G.-E., Wan, C.-Q., & Xu, G. (2021). MOF-directed synthesis of crystalline ionic liquids with enhanced proton conduction. Angewandte Chemie International Edition, 60, 1290–1297.

Qin, Z., Sharma, S., Wan, C.-Q., Malola, S., Xu, W.-W., Häkkinen, H., & Li, G. (2021). A homoleptic alkynyl-ligated [Au₁₃Ag₁₆L₂₄]³⁻ cluster as a catalytically active eight-electron system. Angewandte Chemie International Edition, 60, 970–975.*

Qin, Z., Zhang, J., Wan, C.-Q., Liu, S., Abroshan, H., Jin, R., & Li, G. (2020). Atomically precise nanoclusters with reversible isomeric transformation for rotary nanomotors. Nature Communications, 11, 6019.*

Abdul Hakeem Anwer | Environmental Data Analysis | Best Researcher Award

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Dr. Abdul Hakeem Anwer | Environmental Data Analysis | Best Researcher Award

Qatar University | Qatar

Abdul Hakeem Anwer is a dedicated researcher in the fields of electrocatalytic reduction, nanomaterials, and sustainable energy systems. His career reflects a strong commitment to advancing scientific innovation, particularly in developing efficient solutions for carbon dioxide reduction, wastewater treatment, supercapacitors, and microbial fuel cells. With a proven record of research excellence and international collaboration, he has established himself as a promising scientist in chemistry and materials science.

Professional Profiles

Scopus
Orcid
Google Scholar

Education

He pursued his academic journey at Aligarh Muslim University, India, where he completed his Bachelor’s, Master’s, and Doctorate in Industrial Chemistry and Chemistry. His Ph.D. research focused on bioproduct formation using bioelectrochemical systems, laying the foundation for his later work on advanced nanomaterials and electrocatalysis. His academic training equipped him with strong experimental, analytical, and problem-solving skills to address pressing global challenges in energy and environmental sciences.

Experience

Abdul Hakeem has worked as a Postdoctoral Fellow at Qatar University, where his research centers on electrocatalytic CO2 reduction and advanced nanomaterials, alongside mentoring graduate students. Previously, he served at Yeungnam University, South Korea, collaborating with multidisciplinary teams to push forward energy and environmental projects. Before these international engagements, he contributed as a Senior Research Fellow at IIT Delhi and as a Research Assistant at AMU, where he worked on materials development for microbial fuel cells and energy storage applications. His early industrial experience as a chemist in a food products company gave him practical insights into applied chemistry and quality assessment, broadening his professional expertise.

Research Interests

His research spans electrocatalysis, advanced nanomaterials, CO2 reduction technologies, microbial fuel cells, photocatalysis, and supercapacitors. He is particularly focused on developing hybrid materials, metal-organic frameworks (MOFs), and nanostructures for energy harvesting, wastewater remediation, and pollutant degradation. His scientific contributions highlight innovative pathways to sustainable energy, environmental remediation, and the circular economy, aligning with global needs for clean technologies and green energy solutions.

Awards

Abdul Hakeem’s scientific excellence has been recognized through multiple awards and travel grants. He received support from the European Molecular Biology Laboratory (EMBL) to present at the Global CO2 Challenge in Germany and was granted the Trans-YTF fellowship by the Federation of European Biochemical Societies (FEBS) to participate in an advanced lecture course in Greece. Additionally, he secured a Council of Science and Technology fellowship in India, underscoring his contributions to funded research projects. His achievements reflect both his international standing and his ability to contribute meaningfully to collaborative scientific networks.

Publications

Mashkoor, F., Mashkoor, R., Shoeb, M., Anwer, A.H., Ansari, M.Z., & Jeong, C. (2023). A smart recycling solution: WS₂-halloysite nanocomposite for heavy metals remediation from wastewater and postliminar application in electrochemical supercapacitor for energy storage. Applied Clay Science.

Mahmoud, K.H., Alsubaie, A.S., Anwer, A.H., & Ansari, M.Z. (2023). Comparative Analysis of Perovskite Solar Cells for Obtaining a Higher Efficiency Using a Numerical Approach. Micromachines, 14(6), 1127.

Mashkoor, F., Mashkoor, R., Shoeb, M., Anwer, A.H., Jeong, H., & Jeong, C. (2023). Freestanding WS₂-MWCNT Nanocomposite for Electrochemical Detection of Contaminants of Emerging Concern—Perfluorooctanoic Acid “A Forever Chemical” and Supercapacitor Applications. ACS Sustainable Chemistry & Engineering, 11(32), 11842–11854.

Waris, Anwer, A.H., & Khan, M.Z. (2023). Graphene quantum dots for clean energy solutions. In Graphene Quantum Dots: Biomedical and Environmental Sustainability Applications (pp. 65–88). Elsevier.

Ahmad, N., Bano, D., Jabeen, S., Ahmad, N., Iqbal, A., Waris, Anwer, A.H., & Jeong, C. (2023). Insight into the adsorption thermodynamics, kinetics, and photocatalytic studies of polyaniline/SnS₂ nanocomposite for dye removal. Journal of Hazardous Materials Advances, 9, 100321.

Conclusion

Through his academic journey, international experience, and impactful research, Abdul Hakeem Anwer has emerged as a forward-looking scientist dedicated to solving complex challenges in energy and environmental chemistry. His work on nanomaterials, electrocatalysis, and bioelectrochemical systems continues to inspire sustainable innovation and global collaboration. With a growing portfolio of high-impact publications, book chapters, and a granted patent, he remains committed to advancing clean energy solutions and eco-efficient technologies for the future.