1、Visualizing Carrier Dynamics Using Time-resolved and PL-scanned Imaging Microscopy

 One of our research directions is focused on photo/electro- induced charge carrier dynamics in photoelectric conversion materials vis ultrafast time resolution and ultra-high spatial resolution fluorescence imaging technology, which provides dynamic support for the establishment of high-efficiency photoelectric conversion or electro-optical conversion devices.

2、Ultrafast Carrier Dynamics in Photoelectric Conversion Materials via femtosecond/nanosecond transient absorption spectroscopy

The second research direction is focused on some ultrafast photoinduced carrier dynamics study in high-efficiency photoelectric conversion and luminescent materials via femtosecond/nanosecond transient absorption (reflection) spectroscopy technology, which provides basic dynamic support for the establishment of high-efficiency photoelectric conversion or electro-optical conversion devices.