Prof. Shanshan Liu | Environmental monitoring | Best Researcher Award
Prof. Shanshan Liu | Handan University | China
Prof. Shanshan Liu, a distinguished faculty member at the College of Chemistry, Chemical Engineering and Materials, Handan University, is recognized for her impactful research in environmental materials and pollutant detection technologies. With a Ph.D. from Zhengzhou University (2023) and over 20 SCI-indexed publications, her innovative work on nano carbon dot materials has advanced applications in humidity sensing, water content analysis, heavy metal ion detection, and anti-tumor therapies. Her contributions provide valuable theoretical and practical insights for sustainable environmental monitoring and biomedical applications, marking her as a promising researcher and a strong contender for the Best Researcher Award.
Author Profile
Education
Prof. Shanshan Liu’s academic journey reflects her unwavering dedication to science and innovation. From her earliest studies, she demonstrated a strong curiosity about the environment and materials science, a passion that later guided her towards advanced research. Her formal training in chemistry and materials science provided her with a solid foundation to explore the complex intersections between materials, environment, and health. With a Ph.D. in materials science, she sharpened her expertise in designing advanced functional materials, with a particular focus on environmental applications. This academic background not only nurtured her scientific rigor but also inspired her to engage in forward-looking research that addresses global challenges.
Experience
Currently serving as a professor at the College of Chemistry, Chemical Engineering and Materials at Handan University, Prof. Liu plays an influential role as a teacher, mentor, and researcher. Her professional career combines academic instruction with groundbreaking research, ensuring that her students receive both theoretical knowledge and exposure to cutting-edge innovations. Through her active involvement in university-led research projects, she contributes to strengthening her institution’s academic reputation while also creating opportunities for young researchers to grow. Her work is anchored in a vision that combines environmental sustainability with material science, reflecting her dedication to both scientific excellence and societal betterment.
Research Focus
Prof. Liu’s research primarily centers on environmental materials and pollutant detection technologies. Her pioneering work with nano carbon dot materials has opened new possibilities in multiple areas. She has developed innovative approaches for detecting water content in organic solvents and monitoring air humidity with high sensitivity and precision. Furthermore, her research extends to environmental pollution control, specifically targeting the detection of heavy metal ions using carbon dot fluorescence performance. Notably, her exploration of bio anti-tumor nanomaterials marks an important interdisciplinary contribution, linking materials science with biomedical research. These studies not only address pressing environmental and health-related challenges but also establish new pathways for developing sustainable sensing technologies and novel therapeutic solutions.
Accolades and Recognition
Prof. Liu’s commitment to research excellence is reflected in her impressive academic output, with more than 20 publications in SCI-indexed journals and a citation index exceeding 200. These achievements highlight the recognition her work has received within the scientific community. She has also been entrusted with leading several funded research projects at Handan University, demonstrating the trust placed in her ability to deliver impactful outcomes. While she has yet to publish books or patents, her strong research record and continuous engagement in institutional projects illustrate her rising influence in the field. Her nomination for the Best Researcher Award further acknowledges her outstanding contributions and the promise of even greater achievements ahead.
Impact and Influence
The impact of Prof. Liu’s research extends well beyond academic publications. Her innovations in pollutant detection provide valuable insights for environmental monitoring and public health protection, offering practical solutions to urgent global issues such as water quality, air purity, and toxic exposure. Her exploration of nanomaterials for biomedical applications is also influencing future directions in cancer treatment research, showing how cross-disciplinary collaboration can lead to meaningful breakthroughs. Beyond her personal research, she serves as a role model for her students and colleagues, inspiring them with her dedication, perseverance, and vision for science as a driver of positive change.
Publications
Surface Amide–Mediated Synthesis of Bright Blue Fluorescent Carbon Dots for High-Sensitivity Detection of Hg2+ Ions.
Author: Shanshan Liu, Xiaojia Zhao, Hongying Guo, Yongfeng Cai, Tao Zhang
Journal: Luminescence
Year: 2025
The Role and Recent Progress in Hydrogen Production Using Carbon Dots-Based Photocatalysts.
Author: Shanshan Liu, Junqi Chen, Yongfeng Cai, Yunping Lai, Tao Zhang
Journal: Energy Technology
Year: 2025
Hydrothermal Synthesis of Nitrogen-Doped Carbon Dots for Selective Fe3+ Detection.
Author: Shanshan Liu, Weijie Liu, Xiuhong Chen, Yunping Lai & Tao Zhang
Journal: Fluorescence
Year: 2025
Conclusion
Prof. Shanshan Liu’s academic journey and professional contributions reflect a blend of passion, innovation, and commitment to advancing science for the benefit of society. Through her pioneering work in environmental materials and pollutant detection technologies, she has not only enriched the field of materials science but also provided practical solutions for pressing environmental and health challenges. Her growing influence, proven research excellence, and dedication to mentorship establish her as an inspiring figure in academia. With a clear vision for future breakthroughs, she stands as a deserving candidate for the Best Researcher Award, embodying both scholarly excellence and societal impact.