Prof. Dr. Jun Zhong | Modeling and Simulation | Best Researcher Award

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Prof. Dr. Jun Zhong | Modeling and Simulation | Best Researcher Award

Prof. Dr. Jun Zhong | NCIAE | China

Jun Zhong is a leading researcher in computational materials science, focusing on the atomistic modeling of materials physics and chemistry. He specializes in molecular dynamics, density functional theory, and multi-scale simulations to study adhesion, lubrication, wear mechanisms, and corrosion inhibition in metals and alloys. His work includes the development of MEAM interatomic potentials and modeling surface segregation phenomena in advanced materials. He has investigated catalyst performance, mechanical-electrical property regulation, and deformation mechanisms in metals, composites, and graphene foams. Zhong has contributed to understanding nano-scale interactions, alloy surface behaviors, and interface adhesion. His research integrates computational and theoretical approaches to address challenges in aerospace materials, nanomaterials, and renewable energy technologies. He has authored high-impact publications in journals such as Phys. Rev. B, J. Phys. Chem. C, and Applied Surface Science. He has also written influential monographs on tribology, adhesion, and nanomechanics, widely recognized in the scientific community. Zhong has presented his work at numerous international conferences and workshops. He has been elected Member of the Institute of Physics (MInstP, UK) and recognized as a world-class scientific monograph author. His teaching excellence has been acknowledged in both China and the U.S. He has led and participated in multiple national and international research projects. His studies bridge atomistic modeling and practical applications, advancing materials engineering and aerospace technologies. His research impacts surface phenomena, alloy design, and energy-related materials. Zhong continues to push the boundaries of computational materials science, integrating theory and simulation for innovative solutions.

Profile: Orcid

Featured Publications

Zhang, Y., Zhu, H., Liu, F., Zhong, J., Lu, W., Wang, C., Wang, L., Wu, Z., & Li, B. (2025). Influence and regulation of amorphous layers on phonon transport at SiC/Si interface. International Journal of Heat and Mass Transfer.

Zhang, H., Xu, S., Zou, S., Zhou, H., Ouyang, W., & Zhong, J. (2025). Gas–solid phase separation of active Brownian particles under confinement of hard walls. Nanomaterials.

Ning, Y.-Q., Zhong, J., Jie, A., Zhou, X., Xue, X.-X., Ang, Y. S., & Zhao, Y.-Q. (2025). Designing the weak Fermi pinning and ferromagnetic van der Waals contacts to bilayer CrI3. Applied Physics Letters.

Nie, G., Zhong, F., Zhong, J., Zhu, H., & Zhao, Y.-Q. (2024). Engineering photoelectric conversion efficiency in two-dimensional ferroelectric Cs2PbI2Cl2/Sc2CO2 heterostructures. Applied Physics Letters, 124, 252903.

Nie, G., Zhong, F., Zhong, J., Zhu, H., & Zhao, Y.-Q. (2024). Engineering photoelectric conversion efficiency in two-dimensional ferroelectric Cs2PbI2Cl2/Sc2CO2 heterostructures. Applied Physics Letters.

 

Dr. Fatma Ouled Saad | Experimental Physics | Best Researcher Award

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Dr. Fatma Ouled Saad | Experimental Physics | Best Researcher Award

Dr. Fatma Ouled Saad | ENIM | Tunisia

Ouled Saad Fatma is a researcher in energetic engineering whose work focuses on thermal processes, renewable energy systems, and advanced methods for improving energy efficiency. She has contributed to the development and optimization of solar desalination technologies, particularly through innovative mechanisms designed to enhance solar still productivity and overall thermal performance. Her studies also explore the application of phase change materials to improve heat storage and transfer, supporting more effective energy capture and utilization in sustainable systems. Beyond renewable technologies, she has conducted significant research in electrical resistance tomography, offering new approaches for analyzing material properties and characterizing porosity in complex media. Her academic contributions extend to teaching and supervising projects in areas such as thermodynamics, fluid mechanics, refrigeration systems, sensors, and materials science, where she plays an active role in guiding students in applied engineering practices. Through her combined efforts in research, teaching, and project supervision, she consistently promotes innovative thinking and practical solutions in energy engineering. Her work reflects a strong commitment to advancing environmentally responsible technologies and improving the performance of thermal and energy systems. She is recognized for her ability to integrate experimental methods with analytical modeling to address engineering challenges. Her diverse contributions support progress in sustainable energy, applied thermal sciences, and diagnostic techniques for engineering materials.

Profile: Scopus 

Featured Publications

Ouled Saad, F., Madiouli, J., Mihoubi, D., Shigidi, I., & Sghaier, J. (2026). Estimating talc and cellulose porosity under mechanical dewatering using electrical resistance tomography technique. Flow Measurement and Instrumentation, 107, 103124.

Ouled Saad, F., Madiouli, J., Chemkhi, S., Mankai, S., & Shigidi, I. (2024). Increasing the productivity and the thermal efficiency of conventional solar stills using a new rotating discs mechanism. International Journal of Environmental Science and Technology. (Advance online publication)

Ouled Saad, F., Mankai, S., Madiouli, J., Chemkhi, S., Shigidi, I., & Khan, M. I. (2024). Effect of phase change materials melting temperature on improving single slope solar still productivity. Journal of Energy Storage. (Advance online publication)

Ouled Saad, F., Aymen, S., Madiouli, J., Jalila, S., & Olivier, F. (2016). Quadrupole method: A new approach for solving the direct problem of electrical resistance tomography. Journal of King Saud University – Science.

 

Dr. Adewumi Oluwole | Particle Physics | Best Researcher Award 

Published on by Global Physics Awards

Dr. Adewumi Oluwole | Particle Physics | Best Researcher Award 

Dr. Adewumi Oluwole | University of Pretoria | South Africa

Dr. Adewumi Olufemi Oluwole is a passionate research chemist specializing in the design, synthesis, and characterization of advanced nanocomposite materials for environmental remediation and energy storage applications. His work focuses on the degradation of pharmaceutical pollutants, agrochemicals, and industrial and domestic wastes using innovative photocatalytic and nanomaterial-based approaches. He has extensive expertise in graphitic carbon nitride, heterostructured nanocomposites, and ternary heterojunctions. Adewumi applies techniques such as XRD, FTIR, SEM-EDS, HRTEM, UV-Vis, PL, EIS, and BET to investigate material properties and performance. His research interests also include biosensor development, drug delivery systems, and renewable energy storage technologies. He has successfully synthesized novel nanomaterials with enhanced photocatalytic efficiency and energy storage capabilities. Adewumi has authored multiple high-impact publications in journals such as RSC Advances, Journal of Environmental Chemical Engineering, and Journal of Water Process Engineering. He is skilled in supervising and mentoring undergraduate and postgraduate students and managing complex research projects. Adewumi is experienced in presenting research findings at local and international conferences, demonstrating strong communication expertise. His work contributes significantly to sustainable environmental solutions and advanced material science. He is recognized for his innovative approaches in photocatalysis and pollutant degradation studies. Adewumi combines technical proficiency with effective project management and collaboration skills. His research continues to explore multifunctional nanocomposites for practical environmental and energy applications. Adewumi’s dedication to scientific innovation and academic excellence has positioned him as a leading researcher in environmental nanomaterials. His contributions have a notable impact on both fundamental research and applied chemical engineering solutions.

Profile: Google Scholar

Featured Publications

Oluwole, A. O., Omotola, E. O., & Olatunji, O. S. (2020). Pharmaceuticals and personal care products in water and wastewater: A review of treatment processes and use of photocatalyst immobilized on functionalized carbon in AOP degradation. BMC Chemistry, 14(1), 62.

Oluwole, A. O., & Olatunji, O. S. (2022). Photocatalytic degradation of tetracycline in aqueous systems under visible light irradiation using needle-like SnO₂ nanoparticles anchored on exfoliated g-C₃N₄. Environmental Sciences Europe, 34(1), 5.

Omotola, E. O., Oluwole, A. O., Oladoye, P. O., & Olatunji, O. S. (2022). Occurrence, detection and ecotoxicity studies of selected pharmaceuticals in aqueous ecosystems: A systematic appraisal. Environmental Toxicology and Pharmacology, 91, 103831.

Olufemi Oluwole, A., Khoza, P., & Olatunji, O. S. (2022). Synthesis and characterization of g-C₃N₄ doped with activated carbon (AC) prepared from grape leaf litters for the photocatalytic degradation of enrofloxacin. ChemistrySelect, 7(45), e202203601.

Oluwole, A. O., & Olatunji, O. S. (2023). Synthesis and characterization of binary bismuth tungstate-graphitic carbon nitride (BWO/g-C₃N₄) heterojunction nanocomposites for efficient photodegradation of ibuprofen in aqueous media. Journal of Water Process Engineering, 54,