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

Published on 04/12/202504/12/2025 by Global Physics Awards

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.

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

Published on 02/12/202502/12/2025 by Global Physics Awards

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. Adane Kassa | Biophysics | Editorial Board Member

Published on 17/11/202517/11/2025 by Global Physics Awards

Dr. Adane Kassa | Biophysics | Editorial Board Member

Dr. Adane Kassa | Debre Markos University | Ethiopia

Adane Kassa is a prominent chemist specializing in environmental chemistry, electrochemistry, and materials science. His research focuses on developing eco-friendly and low-cost adsorbents for industrial dye removal, promoting sustainable practices in water treatment. He has extensively worked on the design and application of novel electrochemical sensors for detecting pharmaceuticals and organophosphate pesticides in environmental samples. Kassa’s contributions include advancing voltammetric techniques and creating sensitive analytical methods for environmental monitoring. He has synthesized and characterized metal-organic complexes, including cobalt and manganese derivatives, with notable antibacterial and electrochemical properties. His work bridges fundamental chemistry and practical environmental solutions. Kassa has published in high-impact journals such as Desalination and Water Treatment, ACS Omega, and Journal of Applied Electrochemistry. His studies emphasize sustainability, green chemistry, and cost-effective materials for industrial and environmental applications. He integrates innovative analytical techniques with material design to address real-world challenges. Kassa’s research contributes to safer environmental practices and improved monitoring of pollutants. He demonstrates expertise in chemical synthesis, electrochemical characterization, and sensor development. His interdisciplinary approach connects chemistry, materials science, and environmental engineering. Kassa’s publications showcase his commitment to advancing knowledge in applied and experimental chemistry. He continues to explore new materials and methods for environmental and electrochemical applications. His work impacts both academic research and practical industrial solutions. Overall, Adane Kassa is recognized for his significant contributions to analytical chemistry, sustainable materials, and environmental protection.

Profile: Orcid

Featured Publications

Kassa, A., Engida, A., & Endaye, M. (2025). Eco-friendly adsorbents for industrial dye removal: A comprehensive review of low-cost alternatives. Desalination and Water Treatment.

Ejigu, A., Tefera, M., Guadie, A., Abate, S. G., & Kassa, A. (2025). A review of voltammetric techniques for sensitive detection of organophosphate pesticides in environmental samples. ACS Omega.

Kassa, A., Abebe, A., Biresaw, M., & Tigineh, G. T. (2024). Application of a synthesized novel poly(μ-(4,4’-bipyridine(bis(1,10-phenanthroline))cobalt(II) chloride)) modified glassy carbon electrode for selective differential pulse voltammetric determination of ciprofloxacin in real samples. SSRN.

Zihon, M., Kassa, A., Tigineh, G. T., Chanie, G., Tesfaye, D., Gebrezgiabher, M., Metto, M., Alem, M. B., Abebe, A., & Thomas, M. (2024). Manganese(II) resorcinolate complex: Synthesis, characterizations, electrochemical behavior, and antibacterial activities. Journal of Applied Electrochemistry.

Prof. Dr. Saeed Jafarirad | Biophysics | Best Researcher Award

Published on 14/11/202514/11/2025 by Global Physics Awards

Prof. Dr. Saeed Jafarirad | Biophysics | Best Researcher Award

Prof. Dr. Saeed Jafarirad | University of Tabriz | Iran

Dr. Saeed Jafarirad is a leading researcher in polymer chemistry, green nanotechnology, and biomaterials, recognized for his extensive contributions to biogenic nanostructures, eco-friendly nanoparticle synthesis, and advanced polymeric systems. His work integrates supramolecular chemistry, dendritic and polymeric architectures, cellulose-based and chitosan-based biopolymers, and innovative nano-drug delivery systems designed for therapeutic and theranostic applications. He has produced a large body of scientific output, including book chapters in major biomedical polymer encyclopedias, dozens of peer-reviewed journal articles, numerous conference presentations, national patents, and a wide range of scientific and industrial research projects. His recent publications highlight breakthroughs in slow-release nanofertilizers, phytochemical-mediated magnetic nanocomposites, and enhanced osteogenic and osteoconductive materials developed through green chemistry. His research also explores modulation of plant secondary metabolites using green-synthesized nanomaterials, as well as environmentally friendly fabrication of metal oxide nanostructures for biological and agricultural use. Throughout his career, he has advanced the design of sustainable nanomaterials, self-assembly systems, and carbosiloxane-based dendritic hybrids with applications in drug delivery and controlled release. His contributions have strengthened interdisciplinary links between polymer science, biotechnology, and environmental nanotechnology. He has been frequently recognized for research excellence through awards at institutional and regional levels. Through his innovative approaches and consistent scientific productivity, Dr. Jafarirad continues to play a significant role in shaping the future of green nanotechnology, functional polymers, and bio-based nanomaterial engineering.

Profile: Google Scholar

Featured Publications

Jafarirad, S., Mehrabi, M., Divband, B., & Kosari-Nasab, M. (2016). Biofabrication of zinc oxide nanoparticles using fruit extract of Rosa canina and their toxic potential against bacteria: A mechanistic approach. Materials Science and Engineering: C, 59, 296–302.

Ebadollahi, R., Jafarirad, S., Kosari-Nasab, M., & Mahjouri, S. (2019). Effect of explant source, perlite nanoparticles and TiO₂/perlite nanocomposites on phytochemical composition of metabolites in callus cultures of Hypericum perforatum. Scientific Reports, 9(1), 12998.

Namazi, H., & Jafarirad, S. (2011). Application of hybrid organic/inorganic dendritic ABA type triblock copolymers as new nanocarriers in drug delivery systems. International Journal of Polymeric Materials, 60(9), 603–619.

Gharehpapagh, A. C., Farahpour, M. R., & Jafarirad, S. (2021). The biological synthesis of gold/perlite nanocomposite using Urtica dioica extract and its chitosan-capped derivative for healing wounds infected with methicillin-resistant bacteria. International Journal of Biological Macromolecules, 183, 447–456.

Daghian, S. G., Farahpour, M. R., & Jafarirad, S. (2021). Biological fabrication and electrostatic attractions of new layered silver/talc nanocomposite using Lawsonia inermis L. and its chitosan-capped inorganic/organic hybrid. Materials Science and Engineering: C, 128, 112294.

Assoc. Prof. Dr. Yonko Stoynov | Computational Nanomechanics | Best Researcher Award

Published on 21/10/202521/10/2025 by Global Physics Awards

Assoc. Prof. Dr. Yonko Stoynov | Computational Nanomechanics | Best Researcher Award

Assoc. Prof. Dr. Yonko Stoynov, Technical University of Sofia, Bulgaria

Dr. Yonko D. Stoynov is a distinguished Bulgarian mathematician and academic based at the Technical University of Sofia, where he has built an extensive career in mathematics education and scientific research. His expertise lies in applied mathematics, numerical analysis, and computational modeling, with a particular emphasis on the mathematical simulation of fracture mechanics and magnetoelectroelastic materials at micro- and nanoscales. He has made significant contributions to the theoretical and computational understanding of material behavior under complex loading conditions, developing numerical methods that provide insights into stress distribution, deformation, and fracture propagation in heterogeneous and functional materials. Dr. Stoynov’s research often bridges the gap between abstract mathematical theory and practical engineering applications, exemplified by his work published in ZAMM – Journal of Applied Mathematics and Mechanics, focusing on the boundary integral equation method for analyzing graded nanocracked magnetoelectroelastic half-planes with nanorelief.

He is proficient in advanced programming and software development, particularly using Fortran and Mathematica to construct simulation models that address intricate problems in materials science and mechanics. His computational approaches contribute to the predictive design and analysis of new materials with coupled magneto-electro-mechanical properties, providing valuable insights for emerging technologies in nanotechnology and smart materials. As an academic, Dr. Stoynov has demonstrated exceptional dedication to teaching, offering lectures, tutorials, and laboratory classes in mathematics, mathematical statistics, and numerical methods. He has also been instrumental in mentoring international students through English-language courses and engaging in numerous scientific and educational projects that promote interdisciplinary collaboration.

Dr. Stoynov’s intellectual pursuits reflect a deep commitment to both research excellence and pedagogical innovation. His ability to translate complex mathematical theories into practical engineering solutions has earned him recognition as a key contributor to Bulgaria’s applied mathematics and computational science community. Through his research, he continues to advance the understanding of material behavior under multi-field coupling effects, while his teaching and mentorship efforts foster the next generation of mathematicians and engineers who can integrate theoretical insight with technological innovation.

Profile: Orcid

Featured Publication

Stoynov, Y. D., Dineva, P. S., & Rangelov, T. V. (2025). Boundary integral equation method for graded nanocracked magnetoelectroelastic half‐plane with nanorelief. ZAMM – Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik. Advance online publication.

Dr. Liyan Ni | Quantum Reaction Dynamics | Young Scientist Award

Published on 17/10/202517/10/2025 by Global Physics Awards

Dr. Liyan Ni | Quantum Reaction Dynamics | Young Scientist Award

Dr. Liyan Ni | Shandong Technology and Business University | China

Liyan Ni is a theoretical and computational chemist specializing in quantum dynamics, molecular simulations, and symplectic geometry algorithms. His research focuses on the quantum dynamics of chemical reactions, including isotope effects in OH/OD + CH3 systems and nucleophilic substitution reactions such as F– + CH3I → FCH3 + I–. He has made significant contributions to discrete symplectic dynamics, exploring non-unique Hamiltonians, velocity-position algorithm relations, and enhanced sampling methods for free energy calculations.

Ni is experienced in developing and implementing high-performance parallel algorithms for molecular dynamics and quantum/classical hybrid simulations. He has expertise in quantum chemistry software (Gaussian, ORCA) and molecular dynamics packages (GROMACS, AMBER), applying these tools to study charged interfacial systems, aqueous solutions, and reaction mechanisms.

His work integrates analytical theory with computational methods, aiming to improve the accuracy and efficiency of molecular simulations. He has contributed to several national-level projects funded by the National Natural Science Foundation of China, focusing on time-dependent hybrid quantum/classical dynamics and statistical mechanics of interfacial water systems.

Ni’s research outputs include multiple publications in Molecular Physics and Journal of Chemical Physics, addressing topics such as symplectic integrators, conserved quantities in nonlinear systems, and reduced-dimensional quantum dynamics. He has presented his work internationally at conferences like ISTCP and ACS.

Profile: Orcid

Featured Publications

Ni, L., Qiao, X., & Wang, D. (2025). Reduced-dimensional quantum dynamic study of the F⁻ + CH₃I → FCH₃ + I⁻ system. Molecular Physics.

Ni, L., & Hu, Z. (2024). On the relation between the velocity- and position-Verlet integrators. The Journal of Chemical Physics.

Ni, L., Zhao, Y., & Hu, Z. (2024). Non-unique Hamiltonians for discrete symplectic dynamics. The Journal of Chemical Physics.

Ni, L., Xin, X., Wang, Y., & Wang, D. (2020). Quantum dynamics study of isotope effects of the OD/OH + CH₃ reactions. Molecular Physics,