Best Researcher Award
| Islam Muhammad Muztahidul | |
|---|---|
| Affiliation | Shizuoka University |
| Country | Japan |
| Scopus ID | 59312552800 |
| Documents | 6 |
| Citations | 95 |
| h-index | 3 |
| Subject Area | Electrochemical Sensors |
| Event | Applied Scientist Awards |
| Google Scholar | uH09_lEAAAAJ&hl |
Islam Muhammad Muztahidul
Shizuoka University, Japan
Islam Muhammad Muztahidul is a researcher affiliated with Shizuoka University, Japan, whose academic work focuses on the field of electrochemical sensors. His scholarly activities include contributions to the advancement of sensing technologies through peer-reviewed scientific publications, supporting developments in analytical chemistry and electrochemical detection. His publication record, citation profile, and international research visibility provide measurable indicators of research productivity and scholarly influence. The Best Researcher Award recognizes researchers whose scholarly activities demonstrate sustained academic quality, scientific integrity, and meaningful contributions within their specialized disciplines.[1] [2]
Abstract
Islam Muhammad Muztahidul conducts research in electrochemical sensing technologies with emphasis on analytical performance, sensitivity, selectivity, and practical applications. His published work contributes to the growing body of literature dedicated to chemical detection, biosensing platforms, and electrochemical measurement methodologies. The available bibliometric indicators demonstrate an emerging research profile supported by peer-reviewed publications indexed in major scientific databases and measurable scholarly citations.[1] [3]
Keywords
Electrochemical Sensors; Analytical Chemistry; Biosensors; Electrochemistry; Chemical Detection; Sensor Materials; Scientific Publications; Research Evaluation; Applied Science; Best Researcher Award.
Introduction
Electrochemical sensor research represents an important area within analytical science because it enables accurate, rapid, and cost-effective detection of chemical and biological targets across environmental, biomedical, industrial, and food safety applications. Advances in electrode materials, nanotechnology, and signal processing continue to improve sensor sensitivity and reproducibility. Researchers working in this interdisciplinary field contribute to scientific understanding while supporting technological innovation and practical implementation.[4]
Research Profile
Islam Muhammad Muztahidul is affiliated with Shizuoka University, Japan, where his academic work focuses on electrochemical sensing technologies. His Scopus author profile identifies six indexed publications with ninety-five citations and an h-index of three. These quantitative indicators reflect a developing scholarly record supported by international scientific dissemination and peer-reviewed research output.[1]
Research Contributions
The research contributions associated with Islam Muhammad Muztahidul primarily relate to the development and evaluation of electrochemical sensing systems designed to improve analytical performance. His work contributes to ongoing investigations involving advanced electrode materials, sensing interfaces, electrochemical characterization, and quantitative detection strategies. Such studies support broader scientific efforts aimed at improving reliability, sensitivity, and application-specific sensor performance across interdisciplinary research environments.[2] [5]
Publications
The available publication record demonstrates peer-reviewed scientific contributions indexed by Scopus and Google Scholar. These publications collectively support research visibility and provide measurable evidence of scientific dissemination within electrochemistry and analytical sciences.[1] [2]
- Peer-reviewed journal articles indexed in Scopus.
- Research focusing on electrochemical sensing methodologies.
- Scientific publications receiving citations from the international research community.
Research Impact
Bibliometric indicators provide one approach for evaluating scientific visibility and scholarly influence. The current profile, including indexed publications, citation count, and h-index, demonstrates measurable engagement with the international research community. Continued publication activity and citation growth may further strengthen future academic impact and interdisciplinary collaboration.[1]
Award Suitability
Based on publicly available scholarly metrics, indexed research output, and contributions within electrochemical sensor research, Islam Muhammad Muztahidul demonstrates characteristics commonly considered during academic recognition processes. His research portfolio illustrates sustained engagement in scientific investigation, peer-reviewed publication, and international research dissemination, making his profile relevant for consideration within the Applied Scientist Awards evaluation framework. Final award determinations remain subject to the official review criteria established by the organizing committee.[2]
Conclusion
Islam Muhammad Muztahidul has established an emerging academic profile in electrochemical sensor research through peer-reviewed publications, measurable citation performance, and participation in internationally indexed scientific literature. His work contributes to ongoing developments in analytical chemistry and electrochemical sensing while demonstrating continued engagement with the broader scientific community. These characteristics support recognition within professional academic award programs emphasizing research quality, scientific contribution, and scholarly impact.[1]
External Links
References
- Elsevier. (n.d.). Scopus author details: Islam Muhammad Muztahidul, Author ID 59312552800. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=59312552800 - MM Islam, A Baul., et al. (2024). High birefringence and negative dispersion based modified decagonal photonic crystal fibers: a numerical study.
https://www.degruyterbrill.com/document/doi/10.1515/joc-2020-0015/html - MM Islam, YC Shimul., et al. (2019). FDTD analysis fiber optic SPR biosensor for DNA hybridization: a numerical demonstration with graphene.
http://xpublication.com/index.php/jma/article/view/231 - MM Islam, Tetsushi Ota., et al. (2024). Development of a potassium ion sensor with an integrated solution potential monitoring electrode.
https://cir.nii.ac.jp/crid/1520582794780395008 - MM Islam, Ruddro Roy., et al. (2019). Study of graphene-MoS2 based SPR biosensor with graphene based SPR biosensor: comparative approach
https://www.academia.edu/download/107759859/3565.pdf