Jianglai Wu
2014 Doctor of Philosophy, Physics, Hong Kong Baptist University, Hong Kong
2008 Master of Engineering, Optical Engineering, Ocean University of China, China
2003 Bachelor of Science, Physics, Ocean University of China, China
12/2020-present Assistant Investigator, Chinese Institute for Brain Research, CIBR, Beijing, China
05/2018-09/2020 Postdoctoral scholar, University of California, Berkeley, USA
07/2017-12/2017 Visiting Postdoctoral scholar, HHMI’s Janelia Research Campus, USA
06/2015-04/2018 Postdoctoral scholar, The University of Hong Kong, Hong Kong
Our lab is developing advanced high-speed and high-throughput optical microscopes for brain imaging.
1. Wu J, Ji N & Tsia KK. Speed scaling in multiphoton fluorescence microscopy. Nature Photonics 15, 800–812 (2021).
2. [Lai QTK, Yip GGK, Wu J], Wong JSJ, Lo MCK, Lee KCM, Le TTHD, So HKH, Ji N & Tsia KK. High-speed laser-scanning biological microscopy using FACED. Nature Protocols 16, 4227–4264 (2021).
3. Wu J, Liang Y, Chen S, Hsu CL, Chavarha M, Evans SW, Shi D, Lin MZ, Tsia KK & Ji N. Kilohertz two-photon fluorescence microscopy imaging of neural activity in vivo. Nature Methods 17, 287–290 (2020).
4. [Ren Y, Wu J, Lai QTK], Lai HM, Siu DMD, Wu W, Wong KKY & Tsia KK. Parallelized volumetric fluorescence microscopy with reconfigurable coded incoherent light-sheet array. Light Sci. Appl. 9, 8 (2020).
5. Wu J, Tang AHL, Mok ATY, Yan W, Chan GCF, Wong KKY & Tsia KK. Multi-MHz laser-scanning single-cell fluorescence microscopy by spatiotemporally encoded virtual source array. Biomed. Opt. Express 8, 4160–4171 (2017).
6. [Wu J, Xu Y], Xu J, Wei X, Chan ACS, Tang AHL, Lau AKS, Chung BMF, Shum HC, Lam EY, Wong KKY & Tsia KK. Ultrafast laser-scanning time-stretch imaging at visible wavelengths. Light Sci. Appl. 6, e16196 (2017).
7. Wu J & Chan RKY. A fast fluorescence imaging flow cytometer for phytoplankton analysis. Opt. Express 21, 23921–23926 (2013).
8. Wu J, Li J & Chan RKY. A light sheet based high throughput 3D-imaging flow cytometer for phytoplankton analysis. Opt. Express 21, 14474–144780 (2013).
