For blue light emissing materials developed rapidly, not only the classic organic molecule, but also a new trend of organoboron draws attendion. We induce the concept of isostere of boron-nitrogen and carbon-carbon of indole to form B-N indole. This thesis reports a synthesis method of a series of 1,3,2-benzodiazaborole derivatives which is at the interface between organic and inorganic chemistry. Overcoming the steric effect, we achieved ortho substituted series and meta substituted series. With 10 π electrons and the empty p orbital of boron, these molecules show special photoproperties. The emission spectra reveal that 1,3,2-benzodiazaborole derivatives maintain high triplet energy. We induce carbazole to increase the thermal stability and adjust the hole transport ability for the application in blue phosphorescent organic light emitting diode(PhOLED). The PhOLED device with dCb as host, exhibits maximum luminance of 11680 cd/m2, maximum current efficiency of 18.07 cd/A, the maximum power efficiency of 13.23 lm/W, the maximum external quantum efficiency of 8.25%. The PhOLED device with dCb as electron blocking layer, shows maximum luminance of 20890 cd/m2, maximum current efficiency of 51.66 cd/A, the maximum power efficiency 39.10 lm/W, the maximum external quantum efficiency of 25.35%. In the anion detection experiment, we find out fluoride ion and hydroxide ion can be dectected by naked eye in 10-5M. These molecules have the potential application in sensor array for multianion detection.