Chong-Qing Wan | Material chemistry | Research Excellence Award

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Prof. Dr. Chong-Qing Wan | Material chemistry | Research Excellence Award 

Professor | Capital Normal University | China

Prof. Dr. Chong-Qing Wan is a leading materials chemist whose research focuses on advanced porous materials—particularly metal–organic frameworks (MOFs), covalent organic frameworks (COFs), ionic liquids, and hybrid functional materials engineered for energy storage, catalysis, environmental remediation, and photochemical applications. With 83 scientific publications and more than 1,987 citations across 1,717 citing documents, he has established a strong international research profile marked by innovation, productivity, and sustained scientific influence. His recent work includes pioneering contributions to melt-quenched glass formation in metal-carboxylate frameworks, the design of ionic-liquid-functionalized MOFs as high-performance solid electrolytes, and the development of zwitterionic COFs with tunable meltability and processability—advances that open new opportunities in solid-state ionics and functional porous materials. Prof. Wan has also contributed significantly to photocatalysis, including the construction of CdS–MOF heterostructures for enhanced visible-light hydrogen generation, as well as the engineering of mixed-linker MOFs for improved charge separation and photoactivity. His expertise extends to catalysis and environmental chemistry, exemplified by the creation of macro-microporous solid ionic liquids for efficient biodiesel synthesis and the development of magnetic zirconium-based MOFs for the extraction of environmental pollutants. Over his career, Prof. Wan has collaborated with more than 170 co-authors, reflecting a strong network within the global materials science community and active participation in multidisciplinary research. His scientific contributions have broad societal relevance, advancing sustainable energy technologies, cleaner chemical processes, and environmental protection. Through his role at the MOE Key Laboratory of Bioorganic Phosphorus Chemistry & Chemical Biology in Beijing, Prof. Wan continues to shape the development of next-generation functional materials, combining fundamental insight with practical technological impact.

Profiles: Scopus

Featured Publications

1. Li, W.-L., Li, J.-R., Li, G.-Q., Cui, X. K., Xue, W.-L., Li, M. H., … & Wan, C.-Q. (2026). Flux melting of UiO-67 family metal–organic frameworks: the thin film processing and nanofiltration property. Advanced Membranes.

2. Cui, X. K., Ding, Y., Feng, L., Chen, L. M., Hu, Y. M., Chen, H., & Wan, C.-Q. (2025). An ionic-liquid functionalized metal–organic framework and its high performance as a solid electrolyte for lithium-ion conduction. Dalton Transactions, 54, 561-570. FCitations: 14

3. Li, J.-R., Han, Y.-C., Xue, W.-L., Li, Z.-F., Deng, Y.-H., & Wan, C.-Q. (2023). Solid ionic liquids with macro–microporous structure for efficient heterogeneous catalysis of biodiesel. New Journal of Chemistry.

4. Li, L. F., Guo-Qiang Li, Y.-K. Li, Xiao-Ling Gu, Si-Yuan Hu, Yu-Chen Han, Yi-Fan Wang, Ji-Ci Zheng, Yu-Heng Deng & Wan, C.-Q. (2022). MOF-supported crystalline ionic liquid: new type of solid electrolyte for enhanced and high ionic conductivity. Dalton Transactions.

5. Wang, Y.-F., Sun, J., Han, Y.-C., Li, F., Gu, X.-L., Hui Gao, Si-Yuan Hu, Yu-Heng Deng & Wan, C.-Q. (2022, July). Thiol-Functionalized Metal-Organic Frameworks Bonded to Cubic CdS: A New Synthesis of a Heterostructure with High Activity for Splitting Water into H₂ under Visible-Light Irradiation. ChemPhotoChem.

Prof. Dr. Chong-Qing Wan is advancing the frontiers of metal–organic frameworks through pioneering work in melt-quenched MOF glasses, solid electrolytes, and processable porous materials. His research bridges fundamental chemistry with real-world applications in clean energy, catalysis, and advanced separation technologies. By transforming traditionally brittle crystalline frameworks into versatile, high-performance functional materials, he is shaping the next generation of materials for sustainable industrial innovation.

Yamina Mebdoua Lahmar | Materials sciences | Women Researcher Award

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Dr. Yamina Mebdoua Lahmar | Materials sciences | Women Researcher Award

Research Director | Advanced Technology Development Center | Algeria

Yamina Mebdoua-Lahmar is a prominent researcher and academic in the field of materials science and surface treatment, with a focus on thermal spraying techniques. Currently serving as the Director of Research at the Centre de Développement des Technologies Avancées (CDTA) in Algeria, she has made significant contributions to the development of advanced coatings and surface treatments. Her academic journey spans several decades, during which she has attained advanced degrees and built a distinguished career. Her research interests and leadership have positioned her as an expert in the areas of materials characterization, surface engineering, and applied physics.

Profile

Education

Dr. Mebdoua-Lahmar holds a comprehensive academic background. She obtained her Doctorate in Ceramic Materials and Surface Treatment from the University of Limoges, France, in 2008. Before this, she earned a Magister in Physics, specializing in Astrophysics, from the University of Blida in 1998. Her advanced studies culminated in an Habilitation in Physics from the University of Blida in 2014. Additionally, Dr. Mebdoua-Lahmar completed a Diplôme d’Etudes Supérieures in Physics at the University of Algiers in 1992. She also holds a Baccalaureate in Mathematics from 1987.

Experience

Dr. Mebdoua-Lahmar has an extensive career at CDTA, spanning over two decades. She started as a Research Attaché in 1998 and progressed through the ranks, becoming a Research Director in 2016. Over the years, she has held leadership roles, such as the Director of the “Ionized Media and Laser” Research Division (2012-2015) and Head of the Thermal Spray Team (2013-2020). She currently leads the Thermal Spray Technology Platform at CDTA, overseeing several research projects. Her involvement in numerous projects includes developing coatings resistant to wear and erosion, thermal barrier coatings, and cold spray deposition techniques. Dr. Mebdoua-Lahmar also served as an elected member of the CDTA Scientific Council from 2019 to 2023 and as its President in 2022-2023.

Research Interests

Dr. Mebdoua-Lahmar’s primary research interests lie in surface engineering, specifically the use of thermal spray processes to create protective coatings. Her work covers various applications, from wear-resistant coatings for industrial use to thermal barrier coatings and modeling of deposition processes such as cold spray. Additionally, she has explored the use of advanced materials for corrosion protection and the integration of energetic devices on nonconductive substrates. Her research also extends to numerical studies and modeling of heat transfer during coating formation, as well as the mechanical and electrochemical properties of thermally sprayed materials.

Award

Dr. Yamina Mebdoua-Lahmar, it seems that she is indeed a highly qualified and suitable candidate for the Best Researcher Award. Below is a structured analysis:

Publication Top Note

Rabah Azzoug, Yamina Mebdoua, Fatah Hellal, “Microstructural, Mechanical and Electrochemical Characterization of a Flame Sprayed NiFeCrBSi/WC Cermet Coating,” 21-25, 2022.

R. Azzoug, Y. Mebdoua, F. Hellal, F. Marra, “Analysis of Microstructure, Mechanical Indentation and Corrosive Behavior of a Thermally Sprayed NiFeCrBSi-WC Composite Coating,” Journal of Alloys and Compounds, December 2021, DOI:10.1016/j.jallcom.2021.163505.

O. Sifi, M. Djeghlal, Y. Mebdoua, S. Djeraf, F Hadj-Larbi, “The effect of the solution and aging treatments on the microstructures and microhardness of nickel-based superalloy,” Applied Physics A, 2020, DOI:10.1007/s00339-020-03517-2.

Y. Mebdoua, Y. Fizi, N. Bouhelal, “Cold sprayed copper coating: numerical study of particle impact and coating characterization,” Eur. Phys. J. Appl. Phys., 2016, 74, 24608. DOI:10.1051/epjap/2015150316.

Y. Mebdoua, A. Vardelle, P. Fauchais, “Heat Diffusion in Solidifying Alumina Splat Deposited on Solid Substrate under Plasma sprayed Conditions: Application to Coating Formation,” Defect and Diffusion Forum, 2010.

Y. Mebdoua, A. Vardelle, P. Fauchais, “Numerical Study of Alumina Nucleation Deposited on Steel Substrate under Plasma Spray Conditions,” International Journal of Thermal Sciences, 2010.

S. Djerourou, H. Lahmar, N. Bouhellal, Y. Mebdoua, “Study of Twin Wire Arc Sprayed Zinc/Aluminum Coating on Low carbon Steel Substrate: Application to Corrosion Protection,” Advanced Materials Research, 2013, Vol 685.

Conclusion

Dr. Yamina Mebdoua-Lahmar’s career is marked by significant contributions to the field of materials science, particularly in the area of surface treatments and thermal spraying. Through her leadership at the CDTA, she has advanced numerous groundbreaking projects and contributed to the development of innovative materials with industrial applications. Her academic and professional achievements have established her as a leading expert in the field. Through continuous research, teaching, and active participation in scientific conferences, Dr. Mebdoua-Lahmar remains a pivotal figure in the ongoing evolution of surface treatment technologies and material sciences.