Best Researcher Award
| Leila Zaki |
| Affiliation |
Tarbiat Modares University |
| Country |
Iran |
| Scopus ID |
57204106631 |
| Documents |
52 |
| Citations |
33,933 |
| h-index |
23 |
| Subject Area |
Biological Sensors |
| Event |
Global Sensor Awards |
| ORCID |
Research Profile Available Through Institutional Records |
Leila Zaki
Tarbiat Modares University
The Best Researcher Award profile recognizes the scholarly accomplishments of Leila Zaki, a researcher affiliated with Tarbiat Modares University, Iran. Her academic activities are associated with the field of biological sensors, an interdisciplinary area that combines analytical chemistry, biotechnology, materials science, and sensing technologies. The profile reflects documented scholarly output, citation influence, and research engagement as indexed through recognized academic databases.[1]
Abstract
This academic recognition profile summarizes the documented research achievements of Leila Zaki in the domain of biological sensor technologies. The profile highlights publication activity, citation performance, interdisciplinary research engagement, and the broader scientific significance of contributions related to biosensing systems and analytical detection methodologies. The evaluation framework aligns with internationally recognized research metrics and scholarly impact indicators.[1][2]
Keywords
Biological Sensors, Biosensors, Analytical Chemistry, Sensor Technology, Biomedical Diagnostics, Electrochemical Detection, Research Excellence, Scientific Publications, Citation Impact, Academic Recognition.
Introduction
Biological sensor research plays an important role in modern healthcare, environmental monitoring, food safety assessment, and diagnostic innovation. Researchers working in this area contribute to the development of advanced sensing platforms capable of detecting biological and chemical targets with high sensitivity and selectivity. Through sustained scholarly activity, Leila Zaki has contributed to the scientific literature associated with biosensor technologies and related analytical methodologies.[2]
Research Profile
The research profile demonstrates a documented record of 52 indexed publications and more than 33,000 citations attributed across over 31,000 citing documents. An h-index of 23 indicates measurable scholarly influence and sustained engagement within the scientific community. Such metrics are commonly utilized to evaluate research productivity, visibility, and citation performance across academic disciplines.[1][3]
Research Contributions
Research contributions associated with biological sensors often involve the design of novel sensing materials, signal transduction mechanisms, bio-recognition interfaces, and analytical performance optimization. Publications linked to this field contribute to improved detection accuracy, lower detection limits, and enhanced applicability of biosensors in clinical and industrial environments. The documented scholarly record suggests participation in advancing scientific understanding within these areas.[4]
Interdisciplinary collaboration remains an important characteristic of biosensor research because successful sensor development frequently requires expertise from chemistry, biology, engineering, and materials science. Such integration contributes to the translation of laboratory research into practical technologies and real-world applications.[5]
Publications
The publication portfolio associated with this profile encompasses peer-reviewed scholarly works addressing topics related to biosensing technologies, analytical platforms, biomolecular recognition systems, and sensor-based detection methods. Academic publications provide an essential mechanism for disseminating scientific knowledge, enabling replication, validation, and continued advancement within the field.[2][4]
Research Impact
Research impact may be evaluated through citation analysis, scholarly visibility, publication quality, and influence on subsequent scientific investigations. The citation metrics associated with this profile indicate broad engagement with the published work by researchers across related disciplines. Citation-based indicators should be interpreted alongside qualitative assessments of scientific contribution and innovation.[3]
The continued relevance of biological sensor technologies in healthcare, diagnostics, environmental science, and biotechnology further supports the significance of ongoing research efforts in this domain. Contributions to these areas may facilitate technological progress and support evidence-based scientific development.[5]
Award Suitability
Based on the documented scholarly record, publication activity, citation performance, and disciplinary relevance, Leila Zaki demonstrates characteristics commonly considered during academic recognition and award evaluations. The profile aligns with criteria frequently associated with research excellence, scientific influence, knowledge dissemination, and contributions to the advancement of biological sensor research. Consideration within the context of the Global Sensor Awards is therefore consistent with recognized indicators of academic achievement.[1]
Conclusion
This profile presents a structured overview of Leila Zaki’s documented academic contributions within the field of biological sensors. Through scholarly publications, citation influence, and interdisciplinary engagement, the researcher has established a measurable presence within the scientific community. The available indicators support recognition within professional and academic award frameworks focused on research excellence and innovation.[1]
External Links
References
- Elsevier. (n.d.). Scopus author details: Leila Zaki, Author ID 57204106631. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=57204106631
- Turner, A. P. F. (2013). Biosensors: Fundamentals and applications in analytical science.
- Hirsch, J. E. (2005). An index to quantify an individual’s scientific research output.
- Wang, J. (2006). Analytical electrochemical techniques for biosensor development.
- Dincer, C., Bruch, R., Costa-Rama, E., et al. (2019). Disposable sensors in diagnostics and environmental monitoring.