Best Researcher Award
Cheng-Sao Chen
National Taiwan University of Science and Technology
| Cheng-Sao Chen | |
|---|---|
| Affiliation | National Taiwan University of Science and Technology |
| Country | Taiwan |
| Scopus ID | 8161114700 |
| Documents | 111 |
| Citations | 2014 |
| h-index | 27 |
| Subject Area | Materials Science |
| Event | Research Data Analysis Awards |
| ORCID | 0000-0002-6673-6526 |
Cheng-Sao Chen is a researcher associated with the National Taiwan University of Science and Technology whose scholarly work contributes to the advancement of materials science through interdisciplinary investigations. His publication record, citation performance, and sustained research productivity demonstrate continued engagement with scientific innovation and academic collaboration.[1]
Abstract
This article summarizes the academic profile of Cheng-Sao Chen, highlighting contributions to materials science, scholarly publications, citation performance, and research influence. The overview reflects measurable academic achievements and emphasizes the significance of sustained research excellence within international scientific communities.[2]
Keywords
Materials Science, Functional Materials, Advanced Materials, Surface Engineering, Scientific Publications, Citation Analysis, Research Excellence, Academic Recognition.
Introduction
Academic recognition reflects consistent research quality, publication output, and scientific influence. Cheng-Sao Chen has established an active scholarly profile supported by peer-reviewed publications and measurable citation metrics that indicate continuing impact within materials science research.[3]
Research Profile
The researcher has produced 111 indexed publications with an h-index of 27 and more than 2,000 citations. These indicators demonstrate sustained productivity, collaborative engagement, and continued participation in internationally recognized scientific research.[1]
Research Contributions
Research has advanced innovative materials development through performance optimization, structural characterization, and engineering applications while fostering interdisciplinary scientific collaboration and international knowledge exchange. Consistent contributions to peer-reviewed journals demonstrate a strong
Publications
Over 111 publications indexed in Scopus across materials science disciplines. Research disseminated through internationally recognized peer-reviewed journals.
Research Impact
Citation indicators and publication consistency suggest meaningful scholarly influence within the materials science community. Research outcomes have supported ongoing academic discussion while providing references for subsequent investigations and collaborative scientific development.[4]
Award Suitability
Based on publication productivity, citation performance, and sustained research contributions, Cheng-Sao Chen demonstrates qualifications that align with evaluation criteria commonly associated with the Best Researcher Award presented through the Research Data Analysis Awards program.[5]
Conclusion
Cheng-Sao Chen maintains a well-established academic profile characterized by consistent publication activity, recognized citation impact, and contributions to materials science. These achievements illustrate sustained scholarly engagement and support consideration for professional academic recognition.[5]
External Links
References
- Elsevier. (n.d.). Scopus author details: Cheng-Sao Chen, Author ID 8161114700. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=8161114700 - ORCID. (n.d.). Research profile of Cheng-Sao Chen.
https://orcid.org/0000-0002-6673-6526 - Montecillo, R., Chien, R. R., Tsukada, S., Chen, C.-S., Tu, C.-S., & Feng, K.-C. (2025). Excellent capacitive energy storage in bismuth ferrite-based multilayer ceramic. Journal of the European Ceramic Society. Advance online publication.
https://doi.org/10.1016/j.jeurceramsoc.2025.117694 - Mana-ay, H., Chen, C.-S., Chien, R. R., Tu, C.-S., & Chen, P.-Y. (2024). Achieving high microscale photoconductivity in Gd-modified bismuth ferrite via modulating ferroelectric polarization. Journal of Materials Chemistry C.
https://doi.org/10.1039/d4tc01066c - Montecillo, R., Chen, C.-S., Feng, K.-C., Chien, R. R., Chen, P.-Y., & Tu, C.-S. (2024). Configuration-entropy effects on BiFeO₃–BaTiO₃ relaxor ferroelectric ceramics for high-density energy storage. Journal of Materials Chemistry A.