Nano-probe technology based on synchrotron-based microscopymicroanalysis included scanning transmission X-ray microscopy (STXM), nano-focus angle-resolved photoelectron spectroscopy (nanoARPES), X-ray nano-probenano-diffraction techniques. Through these tools, the physicalchemical phenomena in the nanoscale region are well studied for emergent quantum materials, green energy materials,the composition of air pollution PM2.5, etc.

Deep insight into the electronic, optoelectronicmagnetic property in energy materials can be obtained by using photoelectron spectrum with nanoscale light spot for the next generation of electronic devicesgreen energy materials. It can provide a systematic analysis for novel electronicoptoelectronic materials, energyconductive polymers.

Nano-probe technology can resolve the structural changestrength in novel materials effectively for industry. Through these tools, we can understand the charging-discharging process of battery to short the charging time of battery in the futureto improve the stability of battery. In addition, we also use these tools to detect the composition of PM2.5 in the air to find the possible pollut