Ali Ali | Artificial Intelligence and water Resources Management | Research Excellence Award

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Dr. Ali Ali | Artificial Intelligence and water Resources Management | Research Excellence Award

Brunel University London | United Kingdom

Dr. Ali Ali is an emerging researcher and PhD student in Civil Engineering at Brunel University London, specializing in Artificial Intelligence applications for water resources management. He holds a BEng (Hons) in Civil Engineering from Brunel University and a Diploma with Distinction from Kaplan International College, demonstrating strong academic performance. Dr. Ali has extensive experience with civil engineering and computational software, including AutoCAD, Groundwater Modelling System (GMS), ABAQUS, MATLAB, and programming languages Python and R, enabling advanced modeling, simulation, and data analysis. He has applied his expertise in designing steel and concrete structures while addressing economic, social, and environmental challenges. His professional experience includes multiple Graduate Teaching Assistant roles in Civil Engineering and Computer Science, supporting both undergraduate and master’s students with lab sessions, course material, tutoring, and programming instruction. Additionally, he gained practical industry experience through internships in project management and turbomachinery design, enhancing his skills in project coordination and operational efficiency. Dr. Ali’s research interests focus on optimizing water resources management using AI, sustainable infrastructure design, and hydrological modeling. He has contributed to academic documents, reports, and simulations, with ongoing work aimed at publication in peer-reviewed journals. His work demonstrates a commitment to bridging theoretical research and practical engineering solutions, advancing innovation in civil and environmental engineering.

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Featured Publication

Aquifer-specific flood forecasting using machine learning: A comparative analysis for three distinct sedimentary aquifersScience of the Total Environment, 2025 | Open Access

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.*

Serges Kikwani | Mechanics of Solids | Best Researcher Award

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Dr. Serges Kikwani | Mechanics of Solids | Best Researcher Award

Laboratory of Mechanics and Acoustics (LMA) | Congo, Democratic Republic of the

Dr. Serges Kikwani is a PhD Research Scholar in Solid Mechanics at the Laboratory of Mechanics and Acoustics (LMA), Aix-Marseille University, France, where his research focuses on modeling thermomechanical coupling in adhesive bonding through experimental, analytical, and numerical methods. He holds a DEA in Applied Fluid Mechanics and an Engineering degree in Mechanical Construction from the University of Kinshasa, DRC. With extensive academic and industrial experience, Dr. Kikwani has contributed to mechanical design, thermodynamic solar pumping systems, and infrastructure projects in collaboration with JICA and other institutions. He has held teaching and research positions at multiple universities, including the University of Kinshasa, Loyola University, and the American University of Kinshasa, coordinating academic programs and mentoring students. His research interests encompass materials mechanics, structural adhesives, thermal characterization, and energy-efficient systems. He has published studies on thermal and viscoelastic characterization of adhesives, introducing non-destructive methods using PZT resonance and inverse finite element analysis to determine dynamic material properties. Recognized for his contributions to adhesive materials research, he was nominated for the Best Researcher Award for advancing understanding of dynamic and vibratory behavior in polymers. His work supports the development of more reliable and efficient structural bonding solutions, bridging theoretical, numerical, and experimental approaches in solid mechanics.

Profile: Orcid

Featured Publications

Kikwani, S. (2025). “Thermal characterization of adhesives and studies of CTR between metal and adhesives.” In Proceedings, Springer.

Kikwani, S. (2025). “Multi-Scale Characterization of Viscoelastic Properties in Structural Adhesives Using PZT Resonance and Non-Contact Impulse Validation.” Results in Engineering, November 6, 2025.

Kikwani, S. (2025). “Thermal characterization of adhesives and studies of CTR between metal and adhesives.” 8th International Conference on Adhesive Bonding 2025, Porto, Portugal, July 11, 2025.

Qifei Du | Optimization Techniques | Best Researcher Award

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Mr. Qifei Du | Optimization Techniques | Best Researcher Award

College of Safety and Ocean Engineering China University of Petroleum | China

Mr. Du Qifei is an Assistant Engineer and graduate student in Mechanical Engineering at the College of Safety and Ocean Engineering, China University of Petroleum, Beijing. His academic and professional journey centers on marine equipment structural design, with active contributions to research and innovation in marine engineering. He has participated in key R&D projects such as the study on the influence mechanism of freezing and thawing effect of Arctic permafrost on oil and gas pipelines, alongside consultancy and industry collaborations involving underwater pressurization systems and offshore wind power platform integration. Du Qifei has filed an impressive number of patents spanning underwater connectors, subsea protection devices, dredging systems, pipeline technologies, and advanced agricultural equipment. His research interests include structural simulation and optimization of marine systems, sealing performance of metal seals, underwater pressurization, and the effects of environmental stressors on marine infrastructure. Recognized for his contributions to national-level technological programs and innovation in offshore engineering, he continues to bridge theoretical research with industrial applications. With a focus on sustainable and resilient marine structures, his work contributes to advancing safe and efficient solutions for global offshore engineering challenges.

Profile: Orcid

Featured Publications

“Design and key technology of underwater oil and gas pressurization system”
“A lifting three-dimensional garage”
“A logistics distribution system”
“A mechanical and electrical equipment testing platform”
“A mining system”
“A non-destructive apple picking device”