STAFF PROFILE
Miaosi Li
Position:
Visiting Research Fellow
College / Portfolio:
STEM College
Phone:
+61399259802
Email:
miaosi.li@rmit.edu.au
Campus:
City Campus
1 PhD Completions
- Dabodiya, T.,Yu, H.,Li, M.,Zhang, X. (2022). Sequential droplet reactions for surface-bound gold nanocrater array In: Colloids and Surfaces A: Physicochemical and Engineering Aspects, 649, 1 - 9
- Li, M.,Wei, X.,Bao, L. (2022). Self-assembly of carbon nanodots induced by liquid–liquid phase separation in a surface microdroplet In: Soft Matter, 18, 6517 - 6528
- Zhai, J.,Bao, L.,Walduck, A.,Dyett, B.,Cai, X.,Li, M.,Nasa, Z.,Drummond, C. (2022). Enhancing the photoluminescence and cellular uptake of fluorescent carbon nanodots via cubosome lipid nanocarriers In: Nanoscale, 14, 17940 - 17954
- Nilghaz, A.,Mousavi, S.,Li, M.,Tian, J.,Cao, R.,Wang, X. (2021). Paper-based microfluidics for food safety and quality analysis In: Trends in Food Science and Technology, 118, 273 - 284
- Yu, H.,Dyett, B.,Kadaoluwa Pathirannahalage, S.,Li, M.,Drummond, C.,Greaves, T. (2020). Formation of Surface Protic Ionic Liquid Nanodroplets for Nanofabrication In: Advanced Materials Interfaces, 7, 1 - 9
- Cao, R.,Pan, Z.,Tang, H.,Wu, J.,Tian, J.,Nilghaz, A.,Li, M. (2020). Understanding the coffee-ring effect of red blood cells for engineering paper-based blood analysis devices In: Chemical Engineering Journal, 391, 1 - 9
- Wei, Z.,Li, M.,Zeng, H.,Zhang, X. (2020). Integrated Nanoextraction and Colorimetric Reactions in Surface Nanodroplets for Combinative Analysis In: Analytical Chemistry, 92, 12442 - 12450
- Li, M.,Dyett, B.,Zhang, X. (2019). Automated femtoliter droplet-based determination of oil-water partition coefficient In: Analytical Chemistry, 91, 10371 - 10375
- Dyett, B.,Li, M.,Zhao, H.,Zhang, X. (2019). Plasmonic Nanobubbles in "armored" Surface Nanodroplets In: Journal of Physical Chemistry C, 123, 1 - 9
- Wu, J.,Li, M.,Tang, H.,Su, J.,He, M.,Chen, G.,Guan, L.,Tian, J. (2019). Portable paper sensors for the detection of heavy metals based on light transmission-improved quantification of colorimetric assays In: Analyst, 144, 6382 - 6390