Best Scholar Award
Wenqun Zhong
Wuhan University, China
Wenqun Zhong of Wuhan University in relation to the Best Scholar Award category of the Metallurgical Engineering Awards. The profile is based on indexed research indicators, subject alignment, and publicly listed scholarly profile information, with emphasis on biomaterials research, citation visibility, and documented academic output in Scopus and Google Scholar records.[1][2]
Abstract
Wenqun Zhong is profiled as a researcher affiliated with Wuhan University, China, whose work is situated in the subject area of biomaterials. The available indexed record lists 38 documents, 3,721 citations, and an h-index of 17 under Scopus Author ID 56493889500. These indicators suggest a sustained research presence and measurable scholarly influence within materials-oriented biomedical research. The present page summarizes the researcher’s profile for consideration in the Best Scholar Award context, maintaining a descriptive and evidence-based tone appropriate for academic recognition.[1]
Keywords
Wenqun Zhong; Wuhan University; biomaterials; Scopus Author ID 56493889500; academic recognition; Best Scholar Award; Metallurgical Engineering Awards; research impact; citation analysis; scholarly publications.
Introduction
Academic award profiles commonly combine bibliographic evidence, field relevance, institutional affiliation, and research visibility to present a concise account of a scholar’s contributions. In the case of Wenqun Zhong, the available data identify Wuhan University as the institutional affiliation and biomaterials as the principal subject area. The researcher’s indexed publication and citation record provides a basis for assessing scholarly activity in relation to the Best Scholar Award category of the Metallurgical Engineering Awards.[1][4]
Biomaterials research intersects with materials science, biomedical engineering, chemistry, and translational medicine. Within this interdisciplinary setting, publication quality, citation performance, and discoverability through indexed databases are important indicators of research communication and academic reach. DOI-linked scholarly records further support the traceability of published work and provide persistent access routes for verification and citation.[5]
Research Profile
Wenqun Zhong’s research profile is associated with biomaterials, a field concerned with the design, characterization, and application of materials for biological and medical use. The Scopus author profile reports 38 documents, 3,721 citations, and an h-index of 17, indicating a publication record with demonstrable citation uptake in the indexed literature.[1].[2]
Research Contributions
Wenqun Zhong’s contributions are best understood through the lens of biomaterials scholarship, where laboratory synthesis, structural characterization, performance evaluation, and biomedical relevance are often integrated into a single research program. In such work, the value of a contribution may be reflected in reproducible methods, well-characterized material systems, and relevance to biological interfaces or medical applications.
- Development and evaluation of biomaterial systems within an interdisciplinary materials research context.
- Contribution to indexed scholarly literature with measurable citation visibility across academic databases.[3]
Publications
Wenqun Zhong has 38 indexed documents. These publications form the primary bibliographic basis for the researcher’s academic profile and are associated with a citation total of 3,721. The Scopus author record should be used as the authoritative indexed route for reviewing document-level metadata, co-authorship, journal placement, and citation counts.[1].[5]
Research Impact
The reported citation count of 3,721 and h-index of 17 indicate that Wenqun Zhong’s published work has received notable attention in the scholarly literature. These metrics suggest that multiple publications have been cited repeatedly and that the research profile has achieved visibility beyond isolated individual papers.[1]
Citation indicators are most meaningful when interpreted within the norms of the relevant field. Biomaterials research often involves collaborative, interdisciplinary publication patterns, and citation activity may be influenced by journal scope, application relevance, methods adoption, and the rate at which related biomedical materials research develops.[2]
Award Suitability
The Best Scholar Award profile for Wenqun Zhong is supported by a combination of institutional affiliation, subject relevance, indexed output, citation visibility, and field alignment. The researcher’s biomaterials focus is relevant to materials science and engineering recognition frameworks, including award programs that acknowledge academic contributions in metallurgical and materials-related disciplines.[4]
- The profile identifies a clear institutional affiliation with Wuhan University.
- The subject area of biomaterials aligns with interdisciplinary materials research and engineering applications.
- The Scopus record reports 38 documents, 3,721 citations, and an h-index of 17.[1][4]
Conclusion
Wenqun Zhong’s academic profile reflects an established research presence in biomaterials, supported by indexed publication activity, substantial citation visibility, and affiliation with Wuhan University. For the Best Scholar Award context, the available data support a professional recognition profile grounded in measurable scholarly indicators and field relevance. Final evaluation should rely on verified publication metadata, DOI-linked records, and the official criteria of the Metallurgical Engineering Awards.[1][5]
External Links
References
- Elsevier. (n.d.). Scopus author details: Wenqun Zhong, Author ID 56493889500. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=56493889500
- Wenqun Zhong., & et. al. (2018). Exosomal PD-L1 contributes to immunosuppression and is associated with anti-PD-1 response.
https://www.nature.com/articles/s41586-018-0392-8
- Wenqun Zhong., & et. al. (2017). PAK signalling drives acquired drug resistance to MAPK inhibitors in BRAF-mutant melanomas.
https://www.nature.com/articles/nature24040
- Wenqun Zhong., & et. al. (2022). ICAM-1-mediated adhesion is a prerequisite for exosome-induced T cell suppression.
https://www.cell.com/developmental-cell/fulltext/S1534-5807(22)00002-8
- Wenqun Zhong., & et. al. (2016). Oncogenic BRAF-mediated melanoma cell invasion.
https://www.cell.com/cell-reports/fulltext/S2211-1247(16)30517-4