Best Researcher Award
| Masoumeh Bararzadeh Ledari | |
|---|---|
| Affiliation | Amirkabir University of Technology |
| Country | Iran |
| Scopus ID | 57221272178 |
| Documents | 29 |
| Citations | 523 |
| h-index | 11 |
| Subject Area | Energy |
| Event | Award and Honors |
| ORCID | 0000-0002-8152-0264 |
Masoumeh Bararzadeh Ledari
Amirkabir University of Technology, Iran
Masoumeh Bararzadeh Ledari is a researcher whose scholarly work is centered on the field of energy science, with particular attention to sustainable materials, nanotechnology, catalysis, and environmentally responsible engineering solutions. Her publication record demonstrates consistent engagement with multidisciplinary research that supports cleaner energy production, advanced catalytic systems, and innovative material design. Through peer-reviewed publications and measurable scholarly impact, she has contributed to the growing body of knowledge in energy-related sciences while collaborating with international research communities. Her academic profile indicates a sustained commitment to scientific excellence and innovation, making her a suitable candidate for academic recognition.[1]
Contents
Abstract
The academic activities of Masoumeh Bararzadeh Ledari reflect continuous contributions to energy research through interdisciplinary investigations involving nanomaterials, catalytic technologies, and sustainable engineering. Her scientific publications demonstrate practical approaches to improving energy conversion processes and environmentally friendly material development. With an established citation record and internationally indexed publications, her work contributes to both fundamental science and applied engineering while supporting innovation in sustainable energy systems.[2]
Keywords
Energy; Nanotechnology; Catalysis; Sustainable Materials; Green Chemistry; Environmental Engineering; Advanced Functional Materials; Renewable Energy.
Introduction
Modern energy research increasingly relies on advanced materials capable of improving efficiency while minimizing environmental impact. Researchers working in this field contribute to technological progress through innovative experimental methods and interdisciplinary collaborations. Masoumeh Bararzadeh Ledari has participated in this evolving scientific landscape by investigating functional materials and catalytic systems applicable to sustainable energy technologies.[3]
Research Profile
According to indexed scholarly databases, her academic profile includes 29 publications, 523 citations, and an h-index of 11. These indicators reflect continuous scientific productivity and measurable influence within the energy and materials science community. Her research frequently combines chemistry, nanotechnology, and engineering principles to address practical scientific challenges.[1]
Research Contributions
Development of advanced nanostructured materials for sustainable energy applications. Research on catalytic systems that improve reaction efficiency and environmental compatibility. Investigation of multifunctional materials supporting green chemistry and renewable technologies. Contribution to interdisciplinary collaborations integrating chemistry, engineering, and material science.
Publications
Her publication portfolio consists of peer-reviewed articles indexed in international databases covering catalysis, nanomaterials, energy storage, functional materials, and sustainable chemical technologies. These publications have accumulated significant citations, reflecting recognition by the broader scientific community.[4]
Research Impact
The citation performance of her publications demonstrates continued academic relevance and international visibility. Her research supports ongoing developments in cleaner technologies, advanced catalysts, and sustainable material innovation, contributing to scientific advancement and future technological applications within the energy sector.[5]
Award Suitability
Considering her publication record, scholarly citations, interdisciplinary research activities, and measurable scientific impact, Masoumeh Bararzadeh Ledari demonstrates characteristics commonly associated with candidates for research excellence awards. Her sustained contributions to energy science and advanced materials align with the objectives of academic recognition programs promoting innovation, scientific quality, and international research collaboration.[2]
Conclusion
Masoumeh Bararzadeh Ledari has established a notable academic profile through impactful publications, interdisciplinary energy research, and measurable scholarly influence. Her work continues to support sustainable technological development while contributing valuable scientific knowledge to the international research community. These achievements collectively demonstrate a strong foundation for recognition through the Best Researcher Award.
External Links
References
- Elsevier. (n.d.). Scopus Author Details: Masoumeh Bararzadeh Ledari, Author ID 57221272178.
https://www.scopus.com/authid/detail.uri?authorId=57221272178 - ORCID. (n.d.). Researcher Profile.
https://orcid.org/0000-0002-8152-0264 - Mousakhani, N., Khaleghian, A., Ledari, M. B., & Fani, M. (2026). Nexus powered e-fuels: Integrating energy, water, waste, and climate for sustainable power to X in resource-constrained coastal regions (Preprint). SSRN.
https://papers.ssrn.com/sol3/papers.cfm?abstract_id=6818894 - Kordi, A., Mohebbi, K., & Ledari, M. B. (2026). Pathways to deep decarbonization: Integrating H2–NG blends, flexible storage, and sector coupling in a policy-driven energy model. Energy Conversion and Management: X.
- Khosroshahi, S. P., Ledari, M. B., Ceresht, T. E., Ahmadi, S., Sabet, A. F., & Maleki, F. (2026). Closing the loop: 4E valorisation of waste-PET into renewable fuels.
https://doi.org/10.1016/j.fuel.2026.138367