Mohammad Hosain Beheshty | Sustainable Technology | Best Researcher Award

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Prof. Mohammad Hosain Beheshty | Sustainable Technology | Best Researcher Award

Academic Staff, Iran Polymer and Petrochemical Institute, Iran

Prof. Mohammad Hosain Beheshty is a leading polymer scientist and Professor at the Iran Polymer and Petrochemical Institute (IPPI), renowned for his expertise in sustainable polymer technologies, thermoset composites, nanocomposites and prepreg processing. He earned his B.Sc. (1987) and M.Sc. (1991) in Polymer Engineering from Amirkabir University of Technology, Tehran, and completed his Ph.D. in Polymer Composite Materials at the University of Bath, UK, in 1997. Since then, he has held numerous academic and executive positions at IPPI, including Head of Education, Deputy Director of Research Affairs, Head of Composites Department, and Director of the National Megaprojects Center under the Vice-Presidency for Science and Technology. His research interests include polymer composites, materials processing and innovation strategies for sustainable applications, supported by advanced skills in composite characterization, nondestructive testing, and resin quality control. With 74 Scopus-indexed publications, 1,576 citations and an h-index of 23, his work demonstrates both academic impact and industrial relevance. He has served on editorial boards of major polymer journals and chaired the Iran Composite Scientific Association (2016–2022). His honors include recognition as a Distinguished Academic Member of IPPI (2002) and Distinguished Research Manager of MSRT (2008). Prof. Beheshty’s career reflects outstanding research, leadership and commitment to advancing polymer science globally.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Bahramian, A. R., Kokabi, M., Famili, M. H. N., & Beheshty, M. H. (2006). Ablation and thermal degradation behaviour of a composite based on resol type phenolic resin: Process modeling and experimental. Polymer, 47(10), 3661–3673.

Beheshty, M. H., Harris, B., & Adam, T. (1999). An empirical fatigue-life model for high-performance fibre composites with and without impact damage. Composites Part A: Applied Science and Manufacturing, 30(8), 971–987.

Beheshty, M. H., & Harris, B. (1998). A constant-life model of fatigue behaviour for carbon-fibre composites: The effect of impact damage. Composites Science and Technology, 58(1), 9–18.

Akbari, R., Beheshty, M. H., & Shervin, M. (2013). Toughening of dicyandiamide-cured DGEBA-based epoxy resins by CTBN liquid rubber. Iranian Polymer Journal, 22(5), 313–324.

Hayaty, M., Honarkar, H., & Beheshty, M. H. (2013). Curing behavior of dicyandiamide/epoxy resin system using different accelerators. Iranian Polymer Journal, 22(8), 591–598.

 

Diego Zarie | Renewable Energy | Young Researcher Award

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Mr. Diego Zarie | Renewable Energy | Young Researcher Award

Junior Researcher, University of Cuenca, United States

Mr. Diego Zarie is a dedicated Electrical Engineering student at the University of Cuenca, Ecuador (2019–2025), specializing in Control and Automation with a strong academic foundation that also includes studies in Power Systems at the Universidad Autónoma de Ciudad Juárez, Mexico (2024) and early technical training at Unidad Educativa Técnico Salesiano, Cuenca (2012). Professionally, he has served as Project Manager at M.O. Construcciones (2023–2025), where he has been responsible for designing, planning and executing residential, commercial and industrial electrical projects, including the successful implementation of the ISO 50001 energy efficiency standard in residential construction. His research interests lie in renewable energy, energy efficiency, power systems and automation, with a focus on integrating sustainable practices into engineering solutions. Skilled in project management, system control, and programming across Assembly, C, C++,and ML, Mr. Diego Zarie combines technical expertise with leadership and organizational abilities. He has also demonstrated strong community engagement as an international volunteer in Teresina, Brazil, contributing to UN Sustainable Development Goal 4 on quality education. Recipient of recognition for his early contributions, including one indexed publication, he shows great promise as a young researcher. In conclusion, Mr. Diego Zarie exemplifies academic excellence, professional competence, and social responsibility, making him a deserving candidate for recognition.

Profile: ORCID

Featured Publications

Arévalo-Cordero, P., González, F., Martínez, A., Zarie, D., Rodas, A., Albornoz, E., Ochoa-Correa, D., & Benavides, D. (2025). Hybrid LSTM–FACTS control strategy for voltage and frequency stability in EV-penetrated microgrids. Technologies, 13(9), 402.