Ahmed Nabih Zaki Rashed | Energy Storage | Best Researcher Award

Best Researcher Award

           Ahmed Nabih Zaki Rashed
Researcher Ahmed Nabih Zaki Rashed
Affiliation Menoufiya University
Country Egypt
Scopus ID 36118361900
Documents 403
Citations 13,378
h-index 65
Subject Area Energy Storage
Event World Green Energy Awards
ORCID 0000-0002-5338-1623

Ahmed Nabih Zaki Rashed of Menoufiya University, Egypt, is an academic researcher whose scholarly record demonstrates sustained productivity and measurable influence within the broader field of energy-related technologies and associated engineering disciplines. According to available bibliometric indicators, the researcher has authored 403 indexed publications that have collectively received 13,378 citations and achieved an h-index of 65, reflecting substantial visibility and citation impact within the scientific community.[1]

Abstract

This article presents an academic assessment of Ahmed Nabih Zaki Rashed in relation to consideration for the Best Researcher Award at the World Green Energy Awards. The evaluation is based on publicly available bibliometric indicators, publication productivity, citation performance, scholarly influence, and relevance to energy-related research activities. With 403 indexed documents, 13,378 citations, and an h-index of 65, the researcher demonstrates sustained scientific output and recognized academic visibility. These indicators suggest a significant contribution to research advancement and knowledge dissemination, supporting consideration for professional recognition within an international academic and scientific framework.[1]

Keywords

Ahmed Nabih Zaki Rashed; Energy Storage; Bibliometric Assessment; Research Impact; Scientific Productivity; Citation Analysis; h-index; Academic Excellence; Research Recognition; World Green Energy Awards.

Introduction

Academic recognition awards frequently evaluate candidates through a combination of research productivity, citation influence, scholarly visibility, and contribution to scientific advancement. Bibliometric indicators provide a standardized mechanism for assessing research performance across institutions and disciplines. In this context, Ahmed Nabih Zaki Rashed has established a substantial publication portfolio supported by extensive citation activity and a high h-index, indicating that a significant number of publications have achieved notable scholarly attention within the international research community.[1]

Research Profile

The research profile of Ahmed Nabih Zaki Rashed is characterized by sustained publication activity and broad scholarly engagement. Available bibliometric records indicate 403 indexed documents and 13,378 citations, resulting in an h-index of 65. These indicators suggest both long-term productivity and measurable research influence, demonstrating that numerous publications have been cited repeatedly by subsequent studies and have contributed to ongoing scientific discourse.[1]

Research Contributions

Research contributions associated with Ahmed Nabih Zaki Rashed have supported knowledge development in energy-related technologies and engineering applications. The volume of published work and the resulting citation record indicate continued engagement with topics of scientific and technological relevance. Through peer-reviewed dissemination, the researcher has participated in the advancement of academic understanding and has contributed to the accumulation of evidence that supports innovation and further investigation within related research domains.[1][2]

Publications

The publication portfolio includes a substantial body of scholarly literature indexed in major academic databases. A publication count exceeding four hundred documents reflects continuous participation in scientific communication and peer-reviewed dissemination. Such productivity is frequently regarded as evidence of long-term research engagement and sustained contribution to the scholarly record, particularly when accompanied by strong citation performance and consistent academic visibility.[1]

Research Impact

Research impact may be evaluated through citation metrics, influence on subsequent investigations, and integration into the broader scientific literature. The citation total of 13,378 and h-index of 65 indicate that the researcher’s publications have achieved substantial scholarly recognition. These metrics suggest enduring academic relevance and demonstrate that multiple studies have contributed meaningfully to scientific discussions, thereby strengthening the researcher’s overall impact profile.[1][3]

Award Suitability

Assessment for the Best Researcher Award commonly considers productivity, impact, visibility, and contribution to scientific advancement. Based on the available bibliometric evidence, Ahmed Nabih Zaki Rashed demonstrates a combination of extensive publication output, strong citation performance, and recognized scholarly influence. These characteristics align with widely accepted criteria used by academic award committees when evaluating candidates for distinguished research recognition within international scientific forums.[1][4]

Conclusion

Ahmed Nabih Zaki Rashed presents a research profile characterized by extensive publication activity, substantial citation influence, and a strong h-index. Collectively, these indicators demonstrate measurable academic impact and sustained engagement in scholarly research. Based on available evidence, the researcher represents a credible candidate for consideration in professional recognition programs such as the Best Researcher Award presented within the framework of the World Green Energy Awards.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ahmed Nabih Zaki Rashed, Author ID 36118361900. Scopus.
    https://www.scopus.com/authid/detail.uri?origin=resultslist&authorId=36118361900&zone=
  2. ORCID. (n.d.). ORCID profile: Ahmed Nabih Zaki Rashed, ORCID iD 0000-0002-5338-1623. ORCID Registry.
    https://orcid.org/0000-0002-5338-1623
  3. World Green Energy Awards. (n.d.). Award evaluation and recognition framework.
    https://greenenergyaward.com/
  4. Megalan Leo, L., Mohanadoss, P., Selvam, A. K., Balamurugan, K., Gunasekaran, R., Divya, N., Kumar, C. R., Ferdous, A. H. M. I., & Rashed, A. N. Z. (2024). High modulation depth and high modulated power with low noise figure for high speed modulation optical communication system performance signature. Journal of Optics, 55(4), 175–185.
    https://doi.org/10.1007/s12596-024-02104-5
  5. Lingaraj, V., Neelamegam, N., Selvaraju, M., Prahalathan, G., Narayanan, D. B., Anvar, J., Ramkumar, G., Rashed, A. N. Z., & Ferdous, A. H. M. I. (2024). Different conventional commercial glass optical fibers composites physical parameters performance signature in short range optical transceiver systems. Journal of Optics, 55, 1612–1622.
    https://doi.org/10.1007/s12596-024-02197-y

Razieh Etezadi | Green Hydrogen | Best Researcher Award

Dr. Razieh Etezadi | Green Hydrogen | Best Researcher Award

Senior Researcher | USC Viterbi School of Engineering | United States

Dr. Razieh Etezadi is an accomplished researcher and Ph.D. candidate in Chemical Engineering at the University of Southern California, Viterbi School of Engineering, supported by a prestigious multi-year scholarship and Merit Award. She holds a Master’s in Chemical Engineering and a Master’s in Environmental Engineering from Shiraz University, where she also completed her Bachelor’s in Chemical Engineering as a top-ranked student. Professionally, she has served as Project Engineer and Process Designer on a major California Energy Commission–funded hydrogen production project, leading cross-functional teams, significantly improving process efficiency, and lowering hydrogen production costs. Her professional experience also includes roles as a Process Automation Engineer, Lecturer at Zand Shiraz University, and Research Associate in Metabolic Engineering, where she developed novel algorithms for gene amplification optimization and bioreactor dynamic modeling. Her research interests include hydrogen production and storage, process design and optimization, system automation, metabolic engineering, and digital twin modeling for energy systems. She is proficient in MATLAB, Aspen Plus, COMSOL, LabVIEW, and project management tools, with expertise in process modeling, risk assessment, and advanced instrumentation. Dr. Etezadi’s work has been published in AIChE Journal and Elsevier’s Advances in Synthesis Gas and presented at international conferences, reflecting her commitment to impactful research. She is a Six Sigma Green Belt, with PMP and PE certifications in progress, and actively participates in professional development and industry workshops. Recognized for her leadership, she mentors students and contributes to collaborative research platforms that connect academia and industry. Her growing academic impact is reflected in 28 citations by 27 documents, 4 documents indexed, and an h-index of 3.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Aquino, F., Etezadi, R., Moh, I., Tsotsis, T., & Tasser, C. (2025). In-situ bio-methanation in food waste digesters using CO₂ and catalytically-derived hydrogen from biogas. California Energy Commission Publications.

2. Etezadi, R., & Setoodeh, P. (2018). Gene overexpression targets for enhancement of heterologous production of diverse terpenoids in Escherichia coli. Proceedings of the 3rd Iranian Conference on Systems Biology, Tehran, Iran.

3. Mohammadi, S., Etezadi, R., Sarafzadeh, P., & Ayatollahi, S. (2013). Study of effects of different chemical surfactants on cell surface hydrophobicity (CSH) of Enterobacter cloacae microorganism. First National Iranian Petroleum and Gas Conference, Kerman, Iran.

4. Zhao, L., Etezadi, R., & Tsotsis, T. (2023). Syngas from coal. In Advances in synthesis gas: Methods, technologies and applications (pp. 363–377). Elsevier. (Cited by 6)

5. Etezadi, R., Zhao, L., & Tsotsis, T. (2023). Syngas from food waste. In Advances in synthesis gas: Methods, technologies and applications (pp. 439–455). Elsevier. (Cited by 2)