Prof. Liyun Ding | Condensed Matter Physics | Best Researcher Award
Lanzhou University | China
Prof. Liyun Ding is a distinguished scholar in condensed matter physics and optical sensing technology, currently serving as a Professor and doctoral supervisor at the School of Physical Science and Technology, Lanzhou University. She received the Outstanding Young Scientist Fund of Hubei Province in 2021 and has made significant contributions to interdisciplinary research spanning materials science, microelectronics, and medicine. From 2015 to 2022, she worked as a researcher at Wuhan University of Technology before joining Lanzhou University in 2022, where she continues to lead pioneering studies in optical sensitive nanocomposite materials, optical fiber chemistry, and advanced biosensors. Her research focuses on high-performance optical sensing technology, biological and chemical recognition mechanisms, and the development of cost-effective and precise optical and biochemical sensors, with notable applications in cancer diagnosis and ion detection. She has successfully led multiple national and provincial research projects, including grants from the National Natural Science Foundation of China and the Science and Technology Program of Gansu Province. Prof. Ding has published more than 100 academic papers in prestigious journals such as Med, Biosensors & Bioelectronics, and Sensors and Actuators B: Chemical, alongside securing ten authorized patents and three more under process. According to Web of Science, her publications have been cited over 1,928 times across 1,726 documents, and she holds an h-index of 24 with 133 indexed documents, reflecting her academic impact. She maintains strong collaborations with Lanzhou University’s affiliated hospitals to advance biomedical applications of optical biosensors and is a member of the Optical Testing Committee of the Chinese Optical Society.
Profile: Scopus | ORCID
Featured Publications
Xiao, B., Gao, Z., Zhang, H., Zhang, J., Wang, S., Long, G., Wei, S., Huang, J., Yao, R., Jiang, X., Ma, F., … (2025). Synthesis, properties, and typical applications of MXene‐based heterostructure materials. Advanced Materials Interfaces. Wiley Online Library.
Gao, L., Xiao, B., Lin, Y., Fang, X., He, S., Bai, M., Zhang, L., Ma, Y., Mi, N., Fu, W., Huang, C., Tian, L., … (2025). Real-time diagnosis of cholangiocarcinoma by combining digestive endoscopy and optic fiber biosensors based on bile clusterin. Med. Cell.com.
Ding, L., Gao, Z., Zhang, B., Xiao, B., Yang, L., Zhang, D., Chen, S., Gou, L., Che, T., Zheng, X. (2025). A new optical fiber sensor based on the CDs@ UiO66 complex fluorescence probe for nitric oxide detection. Nanoscale. RSC Publishing.
Wang, S., Cheng, K., Chen, S., Wei, S., Ding, L., Yang, L., Che, T., Wang, N. (2025). Early detection and screening of bladder cancer based on a novel optical fiber surface plasmon resonance sensor. IEEE Sensors Journal. IEEE.
Xu, C., Deng, Y., Man, J., Ding, L., Yang, L. (2025). dd-cfDNA interpretation: Same sample, different story? Transplantation. Lippincott Williams & Wilkins.