Ehsan Akbari | Power Electronics and Microgrids | Best Researcher Award

Best Researcher Award

Ehsan Akbari
Mazandaran University of Science and Technology
Ehsan Akbari
Affiliation Mazandaran University of Science and Technology
Country Iran
Scopus ID 57545495700
Documents 67
Citations 1632
h-index 24
Subject Area Power Electronics and Microgrids
Event Award and Honors
Google Scholar 9rGcw-MAAAAJ&hl=

Ehsan Akbari is a researcher affiliated with Mazandaran University of Science and Technology whose scholarly work has contributed to the advancement of power electronics, renewable energy integration, and microgrid technologies. His publication record, citation performance, and sustained research activity demonstrate continued engagement with contemporary engineering challenges involving efficient power conversion, intelligent energy management, and sustainable electrical systems.[1]

Abstract

This article summarizes the academic profile of Ehsan Akbari with emphasis on research productivity, scientific influence, and engineering contributions. His work primarily addresses high-efficiency power electronic converters, renewable energy systems, and microgrid control strategies that improve reliability, energy quality, and operational performance. The available publication metrics indicate sustained scholarly output with international visibility supported by a substantial citation record.[2]

Keywords

Power Electronics, Microgrids, Renewable Energy, DC-DC Converters, Grid Integration, Smart Energy Systems, Electrical Engineering, Energy Management.

Introduction

Modern electrical networks increasingly depend on intelligent power conversion and distributed energy resources. Research in power electronics provides the technological foundation for efficient renewable energy utilization, voltage regulation, and resilient smart grids. Ehsan Akbari has contributed to these evolving fields through studies that combine theoretical analysis, modeling, and practical engineering applications relevant to sustainable power infrastructure.[3]

Research Profile

His Scopus profile reports 67 indexed publications, 1,632 citations, and an h-index of 24, reflecting consistent scientific engagement. His research portfolio includes converter topologies, distributed generation, power quality improvement, energy optimization, and advanced control methods for renewable energy integration into modern electrical networks.[1]

Research Contributions

Development of efficient power electronic converter architectures. Research on renewable energy integration within microgrids. Advanced control strategies for distributed energy resources. Studies improving power quality, stability, and energy efficiency.

Publications

The researcher’s publications span internationally indexed journals covering electrical engineering, renewable energy technologies, converter design, and intelligent control systems. Several studies are associated with recognized DOI records, facilitating accessibility and scholarly verification through international indexing services.[4]

Research Impact

The combination of publication volume, citation performance, and h-index suggests that Ehsan Akbari’s research has achieved measurable academic influence. His studies support continued development of reliable, efficient, and sustainable electrical energy systems while providing references for researchers working on next-generation smart grids and power electronic technologies.[5]

Award Suitability

Based on publicly available academic indicators, publication productivity, citation metrics, and sustained research contributions in power electronics and microgrids, Ehsan Akbari demonstrates qualifications commonly considered during evaluations for research recognition programs. His scholarly achievements reflect continued contributions to engineering research and international scientific literature.[2]

Conclusion

Ehsan Akbari’s academic record reflects sustained research activity within power electronics and renewable energy engineering. His publications, citation impact, and technical contributions illustrate continued engagement with modern energy technologies and support his recognition within the broader engineering research community.

References

  1. Elsevier. (n.d.). Scopus author details: Ehsan Akbari, Author ID 57545495700. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57545495700
  2. Google Scholar. (n.d.). Scholar profile of Ehsan Akbari.
    https://scholar.google.com/citations?user=9rGcw-MAAAAJ&hl=en&oi=ao
  3. Akbari, E., Shabestari, S. F. M., Pirouzi, S., & Jadidoleslam, M. (2023). Network flexibility regulation by renewable energy hubs using flexibility pricing-based energy management. Renewable Energy, 206, 295–308.
    https://doi.org/10.1016/j.renene.2023.02.050
  4. Rezaie, M., Akbari, E., Ghadimi, N., Razmjooy, N., & Ghadamyari, M. (2022). Model parameters estimation of the proton exchange membrane fuel cell by a Modified Golden Jackal Optimization. Sustainable Energy Technologies and Assessments, 53, 102657.
  5. Razmi, D., Lu, T., Papari, B., Akbari, E., Fathi, G., & Ghadamyari, M. (2023). An overview on power quality issues and control strategies for distribution networks with the presence of distributed generation resources. IEEE Access, 11, 10308–10325.
    https://ieeexplore.ieee.org/abstract/document/10023505

Masoumeh Bararzadeh Ledari | Energy | Best Researcher Award

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]

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.

References

  1. Elsevier. (n.d.). Scopus Author Details: Masoumeh Bararzadeh Ledari, Author ID 57221272178.
    https://www.scopus.com/authid/detail.uri?authorId=57221272178
  2. ORCID. (n.d.). Researcher Profile.
    https://orcid.org/0000-0002-8152-0264
  3. 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
  4. 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.
  5. 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

Mousami Prasad | Energy | Best Researcher Award

Best Researcher Award

Mousami Prasad
Indian Institute of Technology Kanpur

Mousami Prasad
Affiliation  Indian Institute of Technology Kanpur
Country India
Scopus ID 59789320600
Documents 4
Citations 14
h-index 2
Subject Area Energy
Event Award and Honors
ORCID 0000-0002-5873-8978

Mousami Prasad is associated with Brno University of Technology and has contributed to scholarly research within the field of Energy. Her published research, indexed in Scopus, demonstrates participation in internationally recognized scientific communication through peer-reviewed publications. The available bibliometric indicators, including citation counts and h-index, provide measurable evidence of academic engagement and research visibility.[1]

Abstract

This article summarizes the academic profile of Mousami Prasad in relation to the Best Researcher Award. The profile highlights scholarly productivity, research metrics, institutional affiliation, and contributions within the Energy discipline. Bibliometric indicators available through Scopus demonstrate measurable research dissemination and citation activity, while publication records indicate participation in peer-reviewed scientific literature.[2]

Keywords

Energy, Sustainable Engineering, Scientific Publications, Scopus, Research Metrics, Citation Analysis, Academic Recognition, Best Researcher Award.

Introduction

Academic awards recognize researchers whose work demonstrates scholarly quality, scientific integrity, and measurable research influence. Evaluation commonly includes publication records, citation indicators, institutional affiliations, and contributions to advancing specialized knowledge. Such assessments provide a transparent basis for recognizing sustained academic performance.[3]

Research Profile

Mousami Prasad is affiliated with Brno University of Technology and conducts research associated with Energy-related topics. According to the available Scopus profile, the researcher has authored four indexed documents, accumulated fourteen citations, and achieved an h-index of two. These metrics reflect an emerging research portfolio with recognized scholarly visibility.[1]

Research Contributions

Peer-reviewed research contributions in Energy-related scientific fields. Participation in internationally indexed scholarly publications.  Research dissemination through recognized academic databases. Support for evidence-based scientific advancement through published studies.

Publications

The researcher’s publication portfolio includes peer-reviewed journal articles indexed within Scopus. These publications contribute to the broader Energy research community and provide a foundation for citation-based evaluation. Representative research outputs include publications.

Research Impact

Bibliometric indicators suggest that the published work has received scholarly attention through citations. Although the publication portfolio remains compact, citation activity demonstrates engagement by the research community and indicates growing visibility within the Energy discipline. Such metrics are commonly considered alongside qualitative assessment during academic evaluations.

Award Suitability

Based on the available academic profile, Mousami Prasad demonstrates characteristics frequently considered during Best Researcher Award evaluations, including peer-reviewed publications, indexed scholarly output, measurable citation performance, and institutional affiliation. Final award decisions typically depend upon comprehensive review criteria established by the organizing committee.

Conclusion

The academic record of Mousami Prasad reflects active participation in Energy research through indexed publications and measurable scholarly impact. The documented bibliometric information provides an objective overview suitable for academic recognition pages and supports consideration within research award programs emphasizing publication quality, citation performance, and scientific contribution.

External Links

References

  1. Elsevier. (n.d.). Scopus author details: Mousami Prasad, Author ID 59789320600. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=59789320600
  2. ORCID. (n.d.). Researcher Profile.
    https://orcid.org/0000-0002-5873-8978
  3. Prasad, M., & Suresh, L. (2023). Another side of industrial growth in India: Environmental damage from industrial accidents. Safety Science, 164, 106152.
  4. Bhattacharya, P., & Prasad, M. (2026). How do Indian states fare in electricity decarbonization? A consumption-based decomposition analysis at subnational level

Mehdi Azimi | Energy | Best Researcher Award

Mr. Mehdi Azimi | Energy | Best Researcher Award 

First member, at Department of Architecture Faculty of Art and Architecture Tarbiat Modares University, Tehran, Iran.

Mehdi Azimi is an Iranian research-oriented architect born in November 1992. He is a professional architectural engineer with an interdisciplinary approach to energy, technology, and design. After completing his military service, he began his career as an independent consultant and architect. He believes that research should be practical, sustainable, and serve to improve the quality of urban life. He is involved in various projects from interior design to project management and energy analysis, and works with tools such as Rhino, Revit, AutoCAD, Grasshopper, and plugins such as Ladybug and EnergyPlus. Mehdi has experience in collaborating with Tarbiat Modares University and research institutions, and has an active presence in conferences and publishing scientific research articles.
📬 For contact: azimi.mehdi186@gmail.com / 09364680711

Professional Profile

Scopus

ORCID

🎓 Education

Mehdi began his academic studies with a bachelor’s degree in architectural engineering at the Hamedan Non-Profit University of Civil Engineering and Development (2014–2017). During this period, Bacharizi learned the basics of architectural design, structures, and building technology, and gained experience in writing and advancing a thesis with an energy approach in smart facades.
Then, to continue his studies, he entered the master’s degree program in architecture at Tarbiat Modares University in 2022 (2022–2024). During this period, he conducted interdisciplinary research based on energy technologies, advanced simulation (Envi-met, EnergyPlus, Ladybug), and data-driven design. His thesis, titled “Investigation of Smart Moving Facades and Interaction with HVAC,” has been published in a structured format. His education has provided a strong combination of theory, data analysis, and application in real-world design.

💼 Professional Experience

After completing his military service, Mehdi started his career as an independent architect and technical consultant. His areas of expertise include architectural design of first and second phase projects, interior design, and project management. He specializes in projects that combine technology and energy. His skills include mastering Rhino, Grasshopper, Envi-met, EnergyPlus, and Ladybug, which he uses in native designs, climate analysis, and energy optimization.
He has also been a consultant on urban design projects and has prepared data-driven reports to improve thermal conditions and building performance. He was active as an organizer and mentor in workshops at Tarbiat Modares University, which led to the transfer of experience and training of others.

🔬 Research Interests

Mehdi’s main interest in the field of climate architecture is urban sustainability and architectural technological solutions. His focus is on analyzing urban climate conditions and designing facades that are responsive to environmental changes using IoT and EMS technologies. His approach is based on advanced simulation using tools such as Envi-met, EnergyPlus and Ladybug to provide solutions for minimal energy consumption and thermal comfort in buildings.
Another focus of his research is optimizing the use of PCM (phase change material) in passive buildings to increase energy efficiency and long-term sustainability. In addition, he has developed interactive algal bioreactor systems in facades to exploit natural light and heat transfer.

🏆 Awards & Recognition

✔️ Effective participation and cooperation in the “27th National Conference on Urban Planning, Architecture, Civil Engineering and Environment” with two poster articles and a speech:

  • An article about “smart moving views” with an emphasis on improving energy efficiency and daylight management.

  • Another paper examined the “Effect of Surrounding Buildings on the Roof of Argo Factory”, which proposed a composite facade performance analysis.
    📚 In addition to national conferences, he has published a book titled “Smart Moving Facades: Energy Management Systems and Performance Analysis in Modern Buildings” under Taha Science and Culture Publishing. This book is the result of in-depth studies of his master’s thesis and presents scientific evidence in analyzing the relationship between facades and HVAC.
    His educational activities in academia and industry, as a mentor and workshop organizer, have also been noted.

📑 Top Noted Publications

  • “Smart Animated Views: Energy Management Systems and Performance Analysis in Modern Buildings” (Book, Taha Science and Culture Publications, 1404)

  • Poster & Presentation at the 27th National Conference on Urban Planning, Architecture, Civil and Environmental Engineering:

    • Review of smart facades to improve energy efficiency

    • Investigating the impact of surrounding buildings on the formation of the Argo factory roof

Subcycle of articles under review:

  • Energy Conversion and Management:

    • “Analysis of urban block conditions…”, “A comprehensive data-driven approach for urban configuration…”

  • Case Studies in Thermal Engineering:

    • “Real-Time Adaptive Algae Bioreactor Facades…”

  • Solar Energy:

    • “High-performance Office Building: A Novel… HVAC System Details”

  • Results in Engineering:

    • “A Synergistic Approach: Automating PCM and Passive Strategies…”

  • Intelligent Animated Views… Modern Buildings (Book, 1404): Published by Taha Science and Culture Publications; For more information and to receive a short program or chapter, please contact us via email.

  • Critique of smart facades… Energy efficiency (27th conference): presented and published, still lacking the “cited by” index.

  • Analysis of the impact of surrounding buildings… Argo Factory Roof (27th Conference): Presented, no formal citations yet.
    ● The articles under review have not yet been formally published, so they do not have formal external citations and citations — when published, links to journals and the number of citations will be provided.

Conclusion 

Mehdi Azimi demonstrates a highly promising and impactful research trajectory, with:

A strong academic and technical foundation.

A clear commitment to sustainability and innovation in architecture.

A balanced mix of theoretical, experimental, and applied research.