Innovative Research Award
Quan Yang
Zhejiang University, China
Quan Yang from Zhejiang University, whose work demonstrates engagement in nanomaterials and advanced material science investigations relevant to contemporary research development.[1] The award framework emphasizes research visibility, publication quality, citation performance, and scholarly impact within international scientific communities.[2]
Abstract
This academic recognition article presents an overview of the scholarly profile and research contributions associated with Quan Yang of Zhejiang University. The profile reflects academic participation in 2D materials research and demonstrates measurable citation activity in scientific indexing databases.[1] The Innovative Research Award acknowledges emerging scientific influence, publication quality, and contribution to material science innovation through peer-reviewed scholarly dissemination.
Keywords
2D Materials, Nanotechnology, Advanced Materials, Scientific Publications, Citation Analysis, Innovative Research Award, Material Science, Research Recognition, Zhejiang University, Scholarly Impact
Introduction
The advancement of two-dimensional materials has significantly influenced modern material science, nanoengineering, and electronic device development. Researchers working in this domain contribute to scientific understanding related to layered structures, conductivity properties, and nanoscale material interactions. Recognition programs such as the Innovative Research Award aim to identify and acknowledge researchers demonstrating scholarly productivity and emerging research influence through publications, citations, and academic collaboration.[2]
Quan Yang’s academic profile reflects participation in the evolving field of 2D materials and related nanoscience disciplines. The researcher’s indexed publications and citation performance contribute to visibility within scientific literature databases and support the relevance of this academic recognition.[1]
Research Profile
Quan Yang is affiliated with Zhejiang University in China, an institution recognized for research activity across engineering, nanotechnology, and material science disciplines. The researcher’s scholarly profile includes indexed scientific documents and measurable citation activity, indicating engagement within peer-reviewed academic communication networks.[1]
- Institutional Affiliation: Zhejiang University
- Country of Research Activity: China
- Primary Subject Area: 2D Materials
- Indexed Documents: 2
- Total Citations: 26
- Research Identification: ORCID and Scopus indexing
Research Contributions
Research contributions associated with Quan Yang primarily relate to the study and application of advanced two-dimensional materials. Investigations in this field are widely connected to electronic performance optimization, energy-related applications, nanoscale engineering, and material characterization methodologies.
The researcher’s publication activity demonstrates involvement in scientific dissemination through peer-reviewed literature indexed in recognized academic databases. Citation metrics further indicate scholarly engagement and visibility within relevant scientific communities.[1]
- Contribution to emerging 2D material research themes
- Participation in peer-reviewed scientific publication processes
- Research dissemination through indexed academic databases
- Support for interdisciplinary nanomaterials research initiatives
Publications
The publication profile associated with Quan Yang demonstrates research dissemination within scientific indexing systems and contributes to measurable academic visibility. Publication and citation records support the assessment of scholarly communication impact and research engagement.[1]
- Research article related to advanced 2D materials and nanoscale applications published in peer-reviewed scientific literature.
- Scientific publication contributing to material science discussion involving nanostructured materials and interdisciplinary engineering applications.
Research Impact
Research impact is commonly evaluated through publication records, citation metrics, academic indexing, and broader scholarly engagement. Quan Yang’s citation count and documented research outputs demonstrate measurable visibility within scientific literature databases.[1] Citation accumulation indicates that the research contributions have been referenced within subsequent scholarly work, reflecting relevance to ongoing material science discussions.
The focus area of 2D materials continues to hold significance in modern technological research due to its applications in semiconductors, sensors, energy systems, and nanoelectronics. Contributions within this domain support scientific innovation and interdisciplinary collaboration across engineering and physical sciences.
Award Suitability
The Innovative Research Award framework emphasizes scholarly quality, scientific relevance, measurable impact, and contribution to emerging research fields. Quan Yang’s profile demonstrates alignment with these evaluation parameters through documented publication activity, citation visibility, institutional affiliation, and participation in the field of advanced materials research.[2]
- Recognized institutional research affiliation
- Active scholarly indexing profile
- Documented publication and citation metrics
- Research relevance within emerging material science disciplines
- Contribution to internationally visible scientific literature
Conclusion
The academic profile of Quan Yang reflects research participation within the evolving domain of 2D materials and advanced nanoscience. Through indexed publications, measurable citation performance, and institutional research involvement, the researcher demonstrates characteristics associated with emerging scholarly influence.[1] The Innovative Research Award serves as a recognition framework acknowledging scientific engagement, research dissemination, and contribution to contemporary material science advancement.[2]
External Links
References
- HfO2-Based Reconfigurable Radio Frequency Switches for All-Memristor Multistate Attenuator
. https://www.mdpi.com/2079-4991/16/10/605
- Electrical Conductivity of Multiwall Carbon Nanotube Bundles Contacting with Metal Electrodes by Nano Manipulators inside SEM
.https://www.mdpi.com/2079-4991/11/5/1290