Best Researcher Award
| Lixiang LI |
| Affiliation |
University of Science and Technology Liaoning |
| Country |
China |
| Scopus ID |
55730835500 |
| Documents |
122 |
| Citations |
2257 |
| h-index |
25 |
| Subject Area |
Energy Materials |
| Event |
Award and Honors |
Lixiang LI
University of Science and Technology Liaoning
Lixiang LI is a researcher affiliated with the University of Science and Technology Liaoning, China, whose scholarly work has contributed to the advancement of energy materials and related engineering disciplines. With an established publication record indexed by Scopus, the researcher has demonstrated sustained academic productivity through peer-reviewed articles, collaborative investigations, and contributions to materials innovation. The Best Researcher Award recognizes sustained excellence in scientific research, measurable scholarly influence, and continued commitment to advancing knowledge through high-quality publications and academic collaboration.[1]
Abstract
Lixiang LI has established a recognized academic profile in the field of energy materials through consistent publication activity, interdisciplinary collaboration, and measurable citation performance. With more than one hundred indexed publications and over two thousand citations, the research portfolio reflects sustained contributions to materials science, energy technologies, and engineering applications. These scholarly achievements provide an appropriate basis for recognition through the Best Researcher Award.[1]
Keywords
Energy Materials, Materials Science, Advanced Functional Materials, Scientific Publications, Research Excellence
Introduction
Modern research in energy materials plays a significant role in addressing global technological and environmental challenges. Academic researchers contribute by developing innovative materials, improving energy efficiency, and expanding scientific understanding through experimental and theoretical investigations. Evaluation of scholarly impact commonly considers publication quality, citation metrics, collaboration, and long-term scientific influence.[2]
Research Profile
According to the supplied academic indicators, Lixiang LI has authored 122 Scopus-indexed publications, accumulated 2,257 citations, and achieved an h-index of 25. These indicators demonstrate sustained scholarly productivity and continuing recognition within the international research community working in energy materials and related engineering fields.[1]
Research Contributions
The research portfolio reflects contributions to advanced materials, energy conversion technologies, and materials characterization. Through peer-reviewed publications, collaborative investigations, and scientific dissemination, the researcher has supported continued progress in energy-related materials research while contributing valuable knowledge for future technological development.[3]
Publications
The publication record demonstrates continuous engagement with internationally indexed journals. Research outputs include original articles and collaborative studies focusing on materials innovation and energy applications. Many publications are indexed in Scopus and include Digital Object Identifier (DOI) references that facilitate permanent scholarly access and citation tracking.[4]
Research Impact
Citation metrics indicate that the published work has been referenced by researchers across related scientific disciplines. Such citation activity suggests that the research has contributed to ongoing investigations and supports the broader exchange of knowledge within the international scientific community.
Award Suitability
Based on the documented publication record, citation performance, h-index, and academic engagement, Lixiang LI demonstrates qualifications consistent with the objectives of the Best Researcher Award. The profile reflects sustained research productivity, measurable scholarly influence, and continued contributions to the advancement of energy materials research.
Conclusion
The academic achievements associated with Lixiang LI represent a substantial contribution to energy materials research through consistent publication, recognized citation impact, and active participation in scientific advancement. These accomplishments provide a strong scholarly foundation for recognition within international academic award programs while highlighting continued commitment to research excellence.
External Links
References
- Elsevier. (n.d.). Scopus author details: Lixiang LI, Author ID 55730835500. Scopus.https://www.scopus.com/authid/detail.uri?authorId=55730835500
- Sun, Y., Tao, L., Lu, M., Quan, X., Wu, M., Rehman, J., Wang, N., Li, L., & An, B. (2026). Unlocking the size-dependent mechanism of CO₂ reduction on carbon-supported Niₙ clusters. Fuel, 423, 139263.
https://papers.ssrn.com/sol3/papers.cfm?abstract_id=5862252
- Xie, Z., Tao, L., Su, Y., Dastan, D., Li, L., & An, B. (2026). Co single atom and cluster loaded heteroatom-doped graphene electrocatalysts for CO₂ to CO or HCOOH. Computational and Theoretical Chemistry.
- Ma, X., Sun, H., Liu, C., …, Li, L., & An, B. (2026). Unlocking ambient electrochemical lithium-mediated nitrogen reduction: Mechanisms, classifications, components and perspectives.