Miguel Angel Martinez Bohorquez | Elasticity | Excellence in Research Award

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Mr. Miguel Angel Martinez Bohorquez | Elasticity | Excellence in Research Award

phD at University of Huelva | Spain

Mr. Miguel Angel Martinez Bohorquez is a Senior Lecturer in Electronic, Computer and Automatic Engineering at the University of Huelva whose work spans control engineering, electronic instrumentation, renewable energies, hydrogen technologies and energy rehabilitation, distinguished by a solid academic foundation including Industrial Technical Engineering from the University of Seville, Electronic Engineering from the University of Granada and a PhD from the University of Huelva awarded Cum Laude with honours, complemented by multiple officially certified research and transfer evaluation periods; he has contributed extensively to scientific and technological advancement through more than forty-five peer-reviewed publications, book chapters, patents, congress contributions and technical reports, and has played major roles in over two dozen European, national, regional and industrial research projects involving smart grids, hydrogen energy systems, photovoltaic optimisation, geothermal technologies, robotics and energy-efficient building solutions; he is co-inventor of several internationally extended patents currently in industrial exploitation and co-founder of Onurobotics S.L., a technology-based spin-off of the University of Huelva, demonstrating strong commitment to innovation and technology transfer; his academic leadership includes serving as Deputy Director of University Extension at ETSI, Director of the Fundación Cruzcampo Chair at the University of Huelva, Board Member of the School of Engineering and President of the Curriculum Committee for Mining and Mechanical Engineering degrees; he has supervised doctoral research and continues co-supervising multiple theses, while maintaining active membership in the recognized excellence research group “Control and Robotics” (TEP192) and contributing to the Research Center for Technology, Energy and Sustainability, positioning him as a forward-thinking engineer and researcher dedicated to advancing sustainable energy technologies, intelligent control systems, applied instrumentation and real-world technological innovation.

Profile:  Scopus | Orcid | Google Scholar

Featured Publications:

Andújar, J. M., & Segura, F. (2009). Fuel cells: History and updating. A walk along two centuries. Renewable and Sustainable Energy Reviews, 13(9), 2309–2322.

Andujar, J. M., Mejías, A., & Márquez, M. A. (2010). Augmented reality for the improvement of remote laboratories: An augmented remote laboratory. IEEE Transactions on Education, 54(3), 492–500.

Enrique, J. M., Durán, E., Sidrach-de-Cardona, M., & Andujar, J. M. (2007). Theoretical assessment of the maximum power point tracking efficiency of photovoltaic facilities with different converter topologies. Solar Energy, 81(1), 31–38.

Vivas, F. J., De las Heras, A., Segura, F., & Andújar, J. M. (2018). A review of energy management strategies for renewable hybrid energy systems with hydrogen backup. Renewable and Sustainable Energy Reviews, 82, 126–155.

Sánchez Cordero, A., Gómez Melgar, S., & Andújar Márquez, J. M. (2019). Green Building Rating Systems and the new framework Level(s): A critical review of sustainability certification within Europe. Energies, 13(66), 1–26.

 

Elbaz Abouelmagd | Elasticity | Editorial Board Member

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Prof. Elbaz Abouelmagd | Elasticity | Editorial Board Member

Join the Editorial Board Member Committee at National Research Institute of Astronomy and Geophysics | Egypt

Prof. Elbaz Abouelmagd widely recognized in scientific literature as Elbaz I. Abouelmagd, is an Egyptian associate professor of applied mathematics specializing in celestial mechanics and space dynamics, serving at the National Research Institute of Astronomy and Geophysics in Cairo, where he leads the Stellar Astronomy Laboratory and contributes to the advancement of space science research through a distinguished academic path built upon a Bachelor’s degree in mathematics, a Master’s degree in applied mathematics focused on the stability of Lagrangian points in the restricted three-body problem, an Aerospace Diploma in astronomy, and a doctoral degree centered on semi-analytical solutions for perturbed N-body systems under mutual gravitational forces with numerical applications; he has authored a substantial body of publications indexed under multiple global scientific identifiers including Scopus, Web of Science, MR Author ID, SciProfiles, and ISNI, reflecting a prolific research record with dozens of peer-reviewed papers, a strong citation impact, and a consistently high H-index across major international databases; his contributions span analytical modeling, orbital stability, dynamical systems, perturbation theory, and space dynamics, complemented by extensive academic appointments such as assistant and associate professorships across institutions in Egypt, Saudi Arabia, and Libya, as well as leadership roles in scientific committees, curriculum development, academic quality assurance, and national and international advisory boards including the International Astronomical Union, COSPAR, the American Mathematical Society, and various national committees in astronomy, space sciences, remote sensing, and scientific ethics; he has been repeatedly honored by NRIAG for scientific excellence and productivity and has supervised and hosted international scholars, maintaining an active presence in global research networks while advancing the theoretical and applied understanding of celestial mechanics through high-impact scientific contributions, institutional service, and international collaboration.

Profile:  Scopus | Orcid

Featured Publications:

Kumar, M., Pal, A. K., Verma, R. K., Ershkov, S., & Abouelmagd, E. I. (2026). Ring body problem dynamics under the albedo effect. International Journal of Non Linear Mechanics.

Vincent, A. E., Afere, B. A. E., Abouelmagd, E. I., & Elnashar, G. A. (2025). Continuation fraction perturbation effect on out-of-plane equilibrium points. Ingenieur Archiv.

Ma, B., Abouelmagd, E. I., & Gao, F. (2025). Periodic solutions of photo-gravitational R4BP with variable mass and Stokes drag. Nonlinear Dynamics.

Chauhan, S., Kumar, D., Aggarwal, R., Abouelmagd, E. I., & Elnashar, G. A. (2025). Revealing the albedo’s impact on the dynamics of the perturbed restricted three-body problem. Communications in Nonlinear Science and Numerical Simulation.

Suraj, M. S., Abouelmagd, E. I., Bhushan, M., & Asique, M. C. (2025). Exploring the equilibrium dynamics of an infinitesimal body in the perturbed problem of five bodies. Chaos, Solitons & Fractals.

Qimin Liu | Elasticity | Editorial Board Member

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Assoc. Prof. Dr. Qimin Liu | Elasticity | Editorial Board Member

Associate Professor at Wuhan university of technology | China

Assoc. Prof. Dr. Qimin Liu is a leading researcher at the Wuhan University of Technology whose multidisciplinary expertise spans mechanics of materials, multiphysics modeling, and smart materials & structures, and his scientific journey is defined by innovative work such as Transformation of Hard Pollen into Soft Matter, which reflects his early commitment to exploring unconventional material behaviors, followed by impactful biomedical advances including pioneering mechanobiology-driven strategies exemplified by Mechano-Activated Cell Therapy for Accelerated Diabetic Wound Healing and Mechano-Responsive Hydrogel for Direct Stem Cell Manufacturing to Therapy, demonstrating his ability to bridge materials science with regenerative medicine. His engineering-focused contributions include major additive manufacturing insights through A Quasi-Exponential Distribution of Interfacial Voids and Its Effect on the Interlayer Strength of 3D Printed Concrete, as well as breakthroughs in smart sensing technologies highlighted in Flexible, Programmable Sensing System with Poly (AAm-HEMA-SA) for Human Motion Detection, showcasing a strong commitment to innovations in structural sensing. Liu has extensively advanced intelligent hydrogel systems through a suite of multiphysics-driven works such as Development of a Multiphysics Model to Characterize the Responsive Behavior of Magnetic-Sensitive Hydrogels with Finite Deformation, Optimization of Deformable Magnetic-Sensitive Hydrogel-Based Targeting System in Suspension Fluid for Site-Specific Drug Delivery, Multiphysics Modeling of Responsive Deformation of Dual Magnetic-pH-Sensitive Hydrogel, A Multiphysics Model of Magnetic Hydrogel Under a Moving Magnet for Targeted Drug Delivery, A Transient Simulation to Predict the Kinetic Behavior of Magnetic-Sensitive Hydrogel Responsive to Magnetic Stimulus, and Modeling of a Fast-Response Magnetic-Sensitive Hydrogel for Dynamic Control of Microfluidic Flow. His interests further expand into acoustics and metamaterials through works like A Review of Acoustic Luneburg Lens: Physics and Applications and Acoustic Beam Splitter Based on Acoustic Metamaterial Luneburg Lens, as well as geomechanics and infrastructure resilience through Dynamic Mechanical Response and Particle Breakage Characteristics of Calcareous Sand and energy systems via Concentrating Efficiency Loss of Heliostat with Multiple Sub-Mirrors Under Wind Loads. Complementing these areas, he has contributed to membrane science and microreactor engineering through Divalent Ion Partitioning Through Dense Ion Exchange Membranes and Reaction-Diffusion Model to Quantify and Visualize Mass Transfer and Deactivation Within Core-Shell Polymeric Microreactors, along with research on material hydration processes in Hydration Kinetics of Portland Cement Shifting from Silicate to Aluminate Dominance Based on Multi-Mineral Reactions and Interactions. Collectively, these works establish Qimin Liu as a highly versatile scientist whose portfolio seamlessly integrates smart materials, biomechanics, energy systems, and multiphysics design, positioning him as a significant contributor to next-generation materials innovation.

Profile:  Scopus | Orcid | Google Scholar

Featured Publications:

Fan, T. F., Park, S., Shi, Q., Zhang, X., Liu, Q., Song, Y., Chin, H., Ibrahim, M. S. B., … (2020). Transformation of hard pollen into soft matter. Nature Communications, 11(1), 1449.

Shou, Y., Le, Z., Cheng, H. S., Liu, Q., Ng, Y. Z., Becker, D. L., Li, X., Liu, L., Xue, C., … (2023). Mechano-activated cell therapy for accelerated diabetic wound healing. Advanced Materials, 35(47), 2304638.

He, L., Chen, B., Liu, Q., Chen, H., Li, H., Chow, W. T., Tang, J., Du, Z., Yang He, J. P. (2024). A quasi-exponential distribution of interfacial voids and its effect on the interlayer strength of 3D printed concrete. Additive Manufacturing, 58, Article 103XXX (use final article number if available).

Shou, Y., Liu, L., Liu, Q., Le, Z., Lee, K. L., Li, H., Li, X., Koh, D. Z., Wang, Y., Liu, T. M., … (2023). Mechano-responsive hydrogel for direct stem cell manufacturing to therapy. Bioactive Materials, 24, 387–400.

Liu, Q., Li, H., & Lam, K. Y. (2017). Development of a multiphysics model to characterize the responsive behavior of magnetic-sensitive hydrogels with finite deformation. The Journal of Physical Chemistry B, 121(22), 5633–5646.

Ali Ozturk | Elasticity | Best Researcher Award

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Prof. Dr. Ali Ozturk | Elasticity | Best Researcher Award

Engineering Faculty at Duzce University | Turkey

Professor. Dr. Ali Öztürk is a distinguished academic and researcher in the field of Electrical and Electronics Engineering, renowned for his pioneering work on power system stability, optimization, and renewable energy integration. As a faculty member at Düzce University’s Faculty of Engineering, he has made substantial contributions to both academia and applied research through his expertise in intelligent control systems, genetic and heuristic algorithms, and power system analysis. His academic background, rooted in Electrical and Electronics Engineering from Sakarya University and Yıldız University, has provided a strong foundation for his innovative work on topics such as voltage stability, harmonic effects in power systems, and optimization of FACTS device placement. Professor Öztürk has supervised numerous master’s and doctoral theses focusing on advanced energy technologies, including solar and wind power systems, frequency control in multi-area power systems, and data-driven approaches to energy forecasting using deep learning. His research has been widely recognized in national and international projects, encompassing areas like photovoltaic system design, hybrid energy solutions, and the application of artificial intelligence in smart grid management. In addition to his extensive publication record in peer-reviewed journals, he has held several key administrative and academic leadership roles, including serving as Department Chair and Institute Director at Düzce University. Professor Öztürk’s ongoing work continues to bridge theoretical modeling and practical innovation, advancing sustainable energy systems and intelligent electrical network design through a combination of analytical rigor and technological creativity.

Profile: Scopus | Orcid 

Featured Publications:

A Novel Puma Optimizer Based TID Controller for Load Frequency Control.

Effects of Wind Turbine Height Variation on Hybrid Power System Feasibility.

Quantum Genetic Algorithm for Dynamic Economic Dispatch of Active Distribution Network with Microgrid Including Renewable Energy Source.

(2024). A Novel Sea Horse Optimizer Based Load Frequency Controller for Two-Area Power System with PV and Thermal Units. International Journal of Robotics and Control Systems.

(2023). A novel honey badger algorithm based load frequency controller design of a two-area system with renewable energy sources. Energy Reports.