Yasin Kaya | Mathematical Sciences | Research Excellence Award

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Assist. Prof. Dr. Yasin Kaya | Mathematical Sciences | Research Excellence Award

Assistant Professor | Dicle Universty | Turkey

Assist. Prof. Dr. Yasin Kaya is a mathematician affiliated with Dicle University, Turkey, with research expertise centered on mathematical inequalities, particularly Hermite–Hadamard–type inequalities and their upper estimations. His scholarly work contributes to theoretical analysis and inequality refinement within pure and applied mathematics. He has authored 4 peer-reviewed documents, indexed in Scopus, and has received 1 citation, with an h-index of 1, reflecting emerging academic impact. His 2025 open-access publication in Mathematics demonstrates rigorous analytical methods and adds to the global discourse on convexity-based inequalities. Kaya’s research supports foundational mathematical theory that underpins optimization, numerical analysis, and applied modeling, offering long-term value to mathematical sciences and related interdisciplinary applications.

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Related Publications


On closed subspaces of grand Lebesgue spaces

– Journal of Mathematical Analysis and Applications, 2022.


A reverse Hölder inequality in Lp(x)(Ω)

– Mathematical Inequalities & Applications, 2020.


A norm inequality for functions of Lp(·)(Ω) spaces

– Journal of Inequalities and Applications, 2020.

Nicolò Colistra | Mathematical Sciences | Research Excellence Award

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Dr. Nicolò Colistra | Mathematical Sciences | Research Excellence Award

Ricercatore | ENEA | Italy 

Dr. Nicolò Colistra is a biomedical engineer and AI researcher whose work integrates machine learning, biomedical sensing, and intelligent systems to advance healthcare diagnostics, treatment optimization, and human performance assessment. His research spans artificial intelligence for oncology and cardiology, predictive modeling for clinical decision-making, and the development of multi-scale digital twin architectures. He has contributed to high-impact innovations in cardiotoxicity assessment through big-data pipelines, automated drug-screening platforms, and advanced signal-processing algorithms, alongside significant achievements in microfabrication, biosensor design, optical systems, and clean-room prototyping. His applied research also includes the engineering of wearable and robotic systems for gait analysis, athletic performance prediction, and human–machine interaction. Dr. Colistra’s academic influence is demonstrated by 187 citations, 11 publications, and an h-index of 6, underscoring his growing visibility in biomedical engineering, AI-driven health technologies, and translational innovation. He has collaborated with leading institutions including ENEA, the University of Rome Tor Vergata, the Italian Institute of Technology, and IBM Research, contributing to multidisciplinary projects that bridge engineering, medicine, and computational sciences. His work has been showcased at major international conferences, reflecting global engagement in biomedical imaging, electroporation, bioengineering, and neurosensor technologies. Through the integration of AI, advanced sensing, and multi-disciplinary engineering, Dr. Colistra’s research contributes to safer drug development, improved cardiovascular risk evaluation, enhanced athlete monitoring, and more precise diagnostic pathways, ultimately supporting societal goals of better healthcare, prevention, and performance optimization.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

  • Crusi, R., Colistra, N., Camera, F., Monti, G., Zappatore, M. S., Merla, C., & Tarricone, L. (2025). Cardiac pulsed-field ablation: Deep learning solutions for multi-parameter predictions. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology.

  • Colistra, N., Manzi, V., Maikano, S., Laterza, F., D’Onofrio, R., & Verrelli, C. M. (2025). A new linear two-state dynamical model for athletic performance prediction in elite-level soccer players. Mathematics.

  • Iachetta, G., Melle, G., Colistra, N., Tantussi, F., De Angelis, F., & Dipalo, M. (2023). Long-term in vitro recording of cardiac action potentials on microelectrode arrays for chronic cardiotoxicity assessment. Archives of Toxicology.

  • Iachetta, G., Melle, G., Colistra, N., Tantussi, F., De Angelis, F., & Dipalo, M. (2022). Chronic cardiotoxicity assessment by cell optoporation on microelectrode arrays. bioRxiv.

  • Iachetta, G., Colistra, N., Melle, G., Deleye, L., Tantussi, F., De Angelis, F., & Dipalo, M. (2021). Improving reliability and reducing costs of cardiotoxicity assessments using laser-induced cell poration on microelectrode arrays. Toxicology and Applied Pharmacology.

Konstantinos Lazopoulos | Applied Mathematics | Best Researcher Award

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Prof. Dr. Konstantinos Lazopoulos | Applied Mathematics | Best Researcher Award

researcher | National Technical University of Athens | Greece 

Prof. Dr. Konstantinos Lazopoulos is a distinguished scholar in Applied Mathematics and Mechanics, currently serving at the National Technical University of Athens (NTUA), Greece. With an academic foundation rooted in both engineering and mathematics, he earned his Diploma in Civil Engineering from NTUA in 1968, followed by a Diploma in Mathematics from the University of Athens in 1975. He then pursued advanced studies in the United States, obtaining a Master’s degree in Mechanics from Virginia Tech in 1977 and a Ph.D. in Mechanics from Georgia Tech in 1979, both supported by university scholarships. From 1980 to 2013, he was a dedicated faculty member at NTUA’s Department of Applied Mathematics and Physics, contributing profoundly to education and research. His prolific academic output includes over 100 research papers published in leading international journals, focusing on innovative analytical and computational methods in Applied Mathematics and Mechanics. Prof. Lazopoulos is internationally recognized for developing the mathematically rigorous Λ-Fractional Analysis, a novel fractional method inspired by Leibnitz’s foundational ideas of 1695 and satisfying the stringent conditions of Differential Topology. His research interests encompass fractional calculus, continuum mechanics, nonlinear analysis, and mathematical modeling of physical systems. His expertise lies in developing precise mathematical frameworks to describe complex mechanical behaviors, bridging theory and practical application in mechanics and physics. Acknowledged for his scholarly excellence, Prof. Lazopoulos has been featured in Stanford University’s global catalog of the top 2% most influential researchers, underscoring his lasting impact on the scientific community. His career reflects a lifelong commitment to advancing the frontiers of mathematical science and engineering through original thought, rigor, and innovation.1,280 Citations; 79 Documents; 19 h-index.

Profiles: Google scholar | Scopus | ORCID | ResearchGate

Featured Publications

  1. Lazopoulos, K. A. (2006). Non-local continuum mechanics and fractional calculus. Mechanics Research Communications, 33(6), 753–757. [Cited by: 225]

  2. Lazopoulos, K. A., & Lazopoulos, A. K. (2010). Bending and buckling of thin strain gradient elastic beams. European Journal of Mechanics – A/Solids, 29(5), 837–843. [Cited by: 163]

  3. Lazopoulos, K. A. (2009). On bending of strain gradient elastic micro-plates. Mechanics Research Communications, 36(7), 777–783. [Cited by: 147]

  4. Lazopoulos, K. A. (2004). On the gradient strain elasticity theory of plates. European Journal of Mechanics – A/Solids, 23(5), 843–852. [Cited by: 116]

  5. Lazopoulos, K. A., & Stamenović, D. (2008). Durotaxis as an elastic stability phenomenon.Journal of Biomechanics, 41(6), 1289–1294. [Cited by: 66]