Njemuwa Nwaji | Qualitative Research | Research Excellence Award

Published on by Research Data Analysis

Assist. Prof. Dr. Njemuwa Nwaji | Qualitative Research | Research Excellence Award

Institute of Fundamental Technological Research, Polish Academy of Science | Poland

Assist. Prof. Dr. Nwaji Njemuwa Njoku is a materials chemist and nanotechnology researcher with extensive international academic and research experience across Africa, Europe, and Asia. He earned a Ph.D. in Chemistry from Rhodes University, South Africa, following an M.Sc. in Organic Chemistry from the University of Central Lancashire, United Kingdom, and a B.Tech. in Industrial Chemistry from the Federal University of Technology, Owerri. He is currently an Assistant Professor at the Institute of Fundamental Technological Research, Polish Academy of Sciences, where he contributes to doctoral-level teaching and advanced research. Previously, he held research and academic positions at Chungnam National University (South Korea), South China Normal University (China), and Alex Ekwueme Federal University (Nigeria). His research focuses on nanotechnology for energy storage and conversion, including advanced nanomaterial synthesis, photo- and electrocatalysis for hydrogen production, high-performance supercapacitor electrodes, and biocompatible nanomaterials for biomedical applications. He has supervised undergraduate and postgraduate research projects and mentored international graduate students. His scholarly output is reflected in a strong citation record and an H-index of 21. He has received competitive international funding, including serving as Principal Investigator on a major National Research Foundation of South Korea grant, underscoring his contributions to sustainable energy and functional nanomaterials research.

View Orcid Profile View Scopus Profile

Featured Publications

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

Published on by Research Data Analysis

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.*

Larisa Mezentseva | Real-world Case Studies | Best Scholar Award

Published on by Research Data Analysis

Dr. Larisa Mezentseva | Real-world Case Studies | Best Scholar Award

National Research Centre Kurchatov Institute | Russia

Dr. Larisa P. Mezentseva is a distinguished materials chemist and Leading Researcher at the I.V. Grebenshchikov Institute of Silicate Chemistry (Branch of NRC “Kurchatov Institute,” Russia), with over five decades of expertise in inorganic and materials chemistry. She earned her Ph.D. in Chemistry from the Institute of Silicate Chemistry of the Russian Academy of Sciences, focusing on the phase diagrams of lanthanide–phosphate systems. Her research primarily centers on the synthesis, crystal chemistry, and functional properties of rare-earth phosphates, aluminates, and nanostructured oxide ceramics. She has made significant contributions to sol-gel synthesis methods, phase equilibria studies, and the development of advanced ceramic materials for high-temperature and nuclear applications. Dr. Mezentseva has published more than 49 scientific papers, accumulated over 522 citations, and holds an h-index of 13 (Scopus). Her work has appeared in leading international journals such as Glass Physics and Chemistry, Journal of Nuclear Materials, and Russian Journal of Inorganic Chemistry. She has also contributed to patents and collaborative projects advancing the design and application of functional oxide materials. Through her extensive scientific output and mentorship, Dr. Mezentseva has played a vital role in strengthening global understanding of rare-earth ceramics and functional materials.

Profiles : Orcid | Scopus

Featured Publications

Mezentseva, L. (2022). “Ceramic Composites Based on Lanthanum Orthophosphate and Alumina: Preparation and Properties” in Glass Physics and Chemistry.

Mezentseva, L. (2021). “Ceramic Composite Matrices Based on the LaPO4–ZrO2 System: Preparation and Properties” in Glass Physics and Chemistry.

Mezentseva, L. (2021). “Ceramic Composites Based on Nanosized Lanthanum Orthophosphate and Their Properties” in Glass Physics and Chemistry.

Mezentseva, L.P.; Osipov, A.V.; Ugolkov, V.L.; Akatov, A.A.; Doil’nitsyn, V.A. (2019). “Physicochemical Properties of Ceramics Based on a LaPO4–DyPO4 System” in Glass Physics and Chemistry.

Mezentseva, L.; Osipov, A.; Ugolkov, V.; Kruchinina, I.; Maslennikova, T.; Koptelova, L. (2019). “Sol–gel Synthesis of Precursors and Preparation of Ceramic Composites Based on LaPO4 with Y2O3 and ZrO2 Additions” in Journal of Sol-Gel Science and Technology.

Neha Choudhary | Environmental Data Analysis | Women Researcher Award

Published on by Research Data Analysis

Dr. Neha Choudhary | Environmental Data Analysis | Women Researcher Award

Sorbonne Université | France

Dr. Neha Choudhary is a postdoctoral researcher at Institut Jean Le Rond d’Alembert, Sorbonne Université, France, with expertise in materials and inorganic chemistry, particularly in the development of nanomaterials and single-atom catalysts. Her work focuses on designing sustainable catalytic systems for environmentally benign organic transformations and CO₂ conversion into valuable chemicals. With a strong foundation in catalysis and nanotechnology, Dr. Choudhary has contributed significantly to advancing green chemistry and renewable energy solutions through innovative research and international collaborations.

Professional Profile

Google Scholar

Education

Dr. Choudhary earned her Ph.D. in Chemistry from the Indian Institute of Technology Indore, where she conducted extensive research on the design and synthesis of bimetallic catalysts for environmentally friendly organic transformations. She also holds a Master of Science in Chemistry from the School of Chemical Sciences, DAVV, Indore, and a Bachelor of Science with a focus on Physics, Chemistry, and Mathematics from Govt. Holkar Science College, Indore. Her strong academic background is further supported by her qualification in competitive national-level examinations, which strengthened her expertise in catalysis and materials chemistry.

Experience

Dr. Choudhary has extensive experience in academia and research, beginning as a guest faculty member in chemistry at Govt. Polytechnic College, Dewas, where she also taught environmental chemistry and mentored students. She further advanced her research expertise as a Research Associate under a DAE-BRNS scheme at IIT Indore, focusing on catalytic applications of nanocatalysts derived from single-source molecular precursors. Currently, as a Postdoctoral Fellow at Sorbonne Université under the PEPR PowerCO₂ Scheme, she designs and synthesizes three-dimensional structured materials and single-atom catalysts for the conversion of CO₂ into methane and methanol. Her work integrates advanced catalytic materials with renewable energy applications, contributing to global sustainability goals.

Research Interest

Her research interests lie in heterogeneous catalysis, nanomaterials, single-atom catalysts, CO₂ hydrogenation, biomass conversion, and sustainable energy solutions. She specializes in the development of bimetallic and single-atom catalysts for environmentally benign transformations, with a strong emphasis on recyclability, robustness, and cost-effectiveness. Dr. Choudhary’s research also explores electrochemical performance of nanostructured materials for energy storage and CO₂ fixation, bridging the gap between catalysis, green chemistry, and sustainable development.

Awards and Achievements

Dr. Choudhary has actively contributed to numerous international and national conferences, including the European Materials Research Society Fall Meeting, International Conference on Environmental Catalysis, and ICANN conferences. She has presented her research through oral talks and posters in globally recognized events such as the Commonwealth Chemistry Poster Competition and RSC Twitter Poster Conference. She has completed several certified courses from reputed international institutions on nanotechnology, molecular spectroscopy, and nanosensors. Her academic journey is marked by active participation in workshops, webinars, and research symposia focusing on catalysis, renewable energy, and sustainable chemistry. Beyond her academic achievements, she holds accolades in extracurricular activities, including martial arts and cultural events, demonstrating a well-rounded professional profile.

Publications

Chandra, P., Choudhary, N., Lahiri, G.K., Maiti, D., Mobin, S.M. (2021). “Copper Mediated Chemo‐ and Stereoselective Cyanation Reactions.” Asian Journal of Organic Chemistry, 10(8), 1897–1937.

Singh, A., Choudhary, N., Mobin, S.M., Mathur, P. (2021). “Cubane Ru₄(CO)₈ Cluster Containing 4 Pyridine-Methanol Ligands as a Highly Efficient Photoelectrocatalyst for Oxygen Evolution Reaction from Water.” Journal of Organometallic Chemistry, 940, 121769.

Ghosh, T., Choudhary, N., Mobin, S.M. (2020). “Design and Synthesis of Silver Decorated Fe₃O₄@Fe Doped CeO₂ Core‐Shell Ternary Composite as Highly Efficient Nanocatalyst for Selective Oxidation of ….” ChemistrySelect, 5(31), 9601–9606.

Choudhary, N., Parsai, P., Shaikh, M.M. (2024). “3d Transition Metal-Based Single-Atom Catalyst as an Emerging Field for Environmentally Benign Organic Transformation Reactions.” Molecular Catalysis, 565, 114360.

Choudhary, N., Hussain, N., Mobin, S.M. (2023). “Insights on Effect of Different Electrolytes on Electrochemical Performance of CoNi Nanoflower‐Based Supercapacitors.” Energy Technology, 11(10), 2300521.

Choudhary, N., Srivastava, N., Annadata, H.V., Ghosh, B., Da Costa, P. (2025). “The Dual‐Active‐Site Catalysts Containing Atomically Dispersed Pr³⁺ with Ni/CeO₂ for CO₂ Hydrogenation to Methane.” Small, 2504707.

Conclusion

Dr. Neha Choudhary exemplifies a dynamic researcher with a deep commitment to advancing the field of materials and inorganic chemistry through innovative catalysis and nanotechnology. Her contributions toward sustainable CO₂ conversion and green chemical processes align with global environmental objectives. With an extensive publication record in high-impact journals and a strong network of international collaborations, she continues to pioneer advancements in catalytic science for cleaner and greener chemical processes. Her vision includes fostering innovation in renewable energy catalysis, mentoring emerging researchers, and bridging the gap between academic research and industrial application to promote a more sustainable future.