Yi-Lun YING
Professor of at the School of Chemistry and Chemical Engineering
L'Oreal-UNESCO International Rising Talents
NSFCExcellent Young Scholars
National Ten Thousand Talent Program for Young Top-Notch Talent
State Key Laboratory of Analytical Chemistry for Life Science
Nanjing University
E-mail:yilunying@nju.edu.cn
Office: Room G226, Chemical Building
RESEARCH INTERESTS
Dynamic Bioanalysis at the Single Molecule Resolution; Electrochemical Big Data Analysis,
Electrical-Optical Confinment; Nanopores
Education and professional experience
Professor, 2019-present State Key Laboratory of Analytical Chemistry for Life Science, Nanjing University
Co-PI, 2019-present Chemistry and Biomedicine Innovation Center, Nanjing University
Associate Professor, 2016-2019 School of Chemistry and Molecular Engineering, ECUST, CHINA
Ph.D., 2009-2014 Analytical Chemistry, ECUST, CHINA
Under supervision of Professor Yi-Tao Long
Exchange Ph.D. Student, 2014 Nanotechnology, University of Birmingham, UK
Under supervision of Professor Jon A. Preece
B.Sc., 2005-2009 Chemistry, ECUST, CHINA
Main recent research grants as coordinator
NSFC “Excellent Young Scholars” (2020-2022)
National Ten Thousand Talent Program for Young Top-Notch Talent (2019-2022)
NSFC-RSC Joint Project (2016-2019)
NSFC General Program (2019-2022)/Young Scientists Fund (2016-2018)
Shanghai Rising-Star Program (2019-2022)
Shanghai Education Development Foundation“Chenguang” project (2018-2020)
PUBLIC & Professional Services
Editor for Results in Chemistry, 2019-present
Section Editor for BMC Chemisry, 2019-2020
Editor Board Member for Scientific Reports, 2018-present
Review Editor for Frontiers in Chemistry, 2018-present
Selected honors & Awards
First Prize of Science & Technology Award of China Association for Instrumental Analysis (2022)
Selected LAST 2 YEAR’S Publications:
(*Corresponding author, >60 journal papers, 7 patents; 5 year H-index: 26; citations:>1500)
1. Ying, Y.-L.*, Li, Y.-J., Gao, R., Hu, Y.-X., Long, Y.-T. et al. (2018). Manipulating and visualizing the dynamic
aggregation-induced emission within a confined quartz nanopore. Nature Communications, 9, 3657.
2. Gao, Rui, Yao, Lin, Ying, Y.-L.*, Hu, Y.-X. Long, Y.-T. et al. (2019). Wireless nanopore electrodes for analysis of single entities. Nature Protocals, DOI: 10.1038/s41596-019-0171-5.
3. Ying, Y.-L, Long, Y,.-T* (2019). Nanopore-Based Single-Biomolecule Interfaces: From Information to Knowledge, Journal of the American Chemical Society, DOI: 10.1021/jacs.8b11970.
4. Ying, Y.L., Hu, Y.X., Gao, R., Lee, L.P., Long, Y.-T.* et al. (2018). Asymmetric nanopore electrode-based amplification for electron transfer imaging in live cells. Journal of the American Chemical Society, 140, 5385-5392.
5. Yu, R.J., Ying, Y.L.*, Gao, R., Long, Y.T. (2019). Confined Nanopipette Sensing: From Single Molecules, Single Nanoparticles to Single Cells. Angewandte Chemie International Edition, 58, 3706-3714.
6. Gao, R., Ying, Y.L.*, Li, Y.J., Hu, Y.X., Yu, R.J., Lin, Y., Long, Y.T.* (2018). A 30 nm nanopore electrode: facile fabrication and direct insights into the intrinsic feature of single nanoparticle collisions. Angewandte Chemie International Edition, 57, 1011-1015.
7. Hu, Z.L., Li M.Y., Liu S.C., Ying, Y.L.*, Long, Y.T. (2019). A lithium-ion-active aerolysin nanopore for effectively trapping long single-stranded DNA. Chemical Science, 10, 354-358.