Research Excellence Award

The Research Excellence Award recognizes notable scholarly contributions in the interdisciplinary field of carbon capture and sustainable environmental technologies. Yingying Li, affiliated with Zhejiang A & F University Donghu Campus, has developed a research profile characterized by publications addressing carbon adsorption materials, biomass-derived composites, and advanced environmental remediation systems. The researcher’s academic record demonstrates measurable scholarly impact through peer-reviewed publications, citation performance, and continued participation in global scientific discourse related to climate mitigation technologies.[1]

Abstract

Yingying Li has contributed to the advancement of carbon capture research through investigations involving adsorption materials, biochar engineering, and environmentally sustainable nanostructured systems. The research portfolio reflects a multidisciplinary orientation integrating materials science, environmental chemistry, and applied carbon management strategies. Published studies demonstrate attention to adsorption efficiency, recyclability, and practical implementation within sustainable environmental frameworks. Citation indicators and publication visibility further illustrate academic engagement within the international scientific community.[2]

Keywords

Carbon capture, adsorption materials, biomass-derived composites, environmental remediation, sustainable materials science, Cryogenicist Global Awards.

Introduction

Carbon capture technologies continue to occupy a central role in climate mitigation research due to increasing global concerns regarding greenhouse gas emissions and environmental sustainability. Academic investigations into adsorption systems, carbon sequestration mechanisms, and biomass-derived functional materials have expanded significantly during the last decade. Within this context, Yingying Li has participated in research activities focused on improving material performance for environmental applications, particularly in relation to carbon dioxide adsorption and sustainable remediation systems.[3]

Research Profile

The Scopus author profile associated with Yingying Li records 47 indexed publications and 904 citations, reflecting sustained participation in peer-reviewed environmental and materials science research. The researcher maintains an h-index of 19, indicating measurable scholarly influence across multiple studies and collaborative investigations.[1]

Research Contributions

Yingying Li’s research contributions include the development of biomass-based adsorption materials for carbon dioxide capture and environmental remediation applications. The work also involves the investigation of nanostructured porous materials designed to enhance adsorption efficiency and cyclic stability in carbon capture systems. Additionally, the researcher has participated in interdisciplinary environmental studies integrating chemistry, materials science, and sustainable engineering methodologies while contributing to peer-reviewed scientific literature addressing low-cost and environmentally compatible carbon management technologies. [3]

Publications

Yingying Li include Dynamic vapor-catalysis coupling in COF/MXene aerogels for synergistic solar evaporation and photocatalytic CO₂ reduction, A carbon-negative aerogel with superior CO₂ capture, flame retardancy, and strength based on a cellulose/MOF three-dimensional network, and Mechanically robust and flame-resistant cellulose nanofiber aerogels for efficient smoke pollutant adsorption. These studies highlight contributions to carbon capture materials, advanced aerogel technologies, and environmental remediation applications.

Research Impact

The citation profile associated with Yingying Li demonstrates consistent academic visibility within environmental science and carbon capture research communities. The accumulation of more than 900 citations indicates that the published work has contributed to ongoing scholarly discussions related to adsorption materials, carbon mitigation technologies, and environmentally sustainable engineering approaches.[1]

Award Suitability

The research profile of Yingying Li demonstrates alignment with the objectives commonly associated with international academic recognition programs emphasizing sustainability, environmental innovation, and carbon management research. The documented publication record, citation performance, and specialization in carbon capture technologies provide evidence of active scholarly contribution within a globally significant research domain.[2]

Conclusion

Yingying Li has established a research profile centered on carbon capture technologies, adsorption materials, and environmentally sustainable material systems. The publication and citation record reflects continued scholarly engagement within environmental science and materials engineering disciplines. Through interdisciplinary research contributions addressing carbon management and remediation technologies, the researcher has contributed to ongoing scientific efforts associated with sustainability and climate mitigation objectives.[1]

External Links

• Scopus Author Profile
  
• Cryogenicist Global Awards Website
  

References

1. Elsevier. (n.d.). Scopus author details: Yingying Li, Author ID 59646691500. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=59646691500
   
2. Cryogenicist Global Awards. (2026). International recognition framework for sustainability and research excellence awards.
   https://cryogenicist.com/
3. Lu, Y., Li, Y., Zhang, G., Liang, J., Zhu, H., & Fan, D. (2026). Dynamic vapor-catalysis coupling in COF/MXene aerogels for synergistic solar evaporation and photocatalytic CO2 reduction. Applied Catalysis B: Environment and Energy, 382, 125904.
   https://doi.org/10.1016/j.apcatb.2025.125904

4. Wang, H., Zhu, L., Xia, W., Kang, M., Zhou, Q., Shi, W., Xiang, X., Sun, Q., & Li, Y. (2025). A carbon-negative aerogel with superior CO₂ capture, flame retardancy, and strength based on a cellulose/MOF three-dimensional network. Chemical Engineering Journal. Advance online publication.
   https://doi.org/10.1016/j.cej.2025.164458

5. Li, Y., Xia, W., Zhuang, C., Hu, H., Kang, M., Wang, H., Zhu, L., Wang, H., & Sun, Q. (2026). Mechanically robust and flame-resistant cellulose nanofiber aerogels for efficient smoke pollutant adsorption. Carbohydrate Polymers, 376, 124827. https://doi.org/10.1016/j.carbpol.2025.124827