In this research work, we have successfully synthesized the carrier-transporting materials containing the oxetane crosslinkable groups such as oxdiazole (Oxa-oxe), triazole (Tri-oxe) and triphenylamine (Tpa-oxe), and polyfluorene light emitting material containing the oxetane crosslinkable group (P2). From DSC results, we can clearly observe that the crystallinity of polyfluorene was reduced by incorporating the oxetane group into the side chain of polyfluorene, and the Tg of the Polyfluorene was increased from 25℃ to 35℃ after crosslinking. We also found that only the films of Tpa-Oxe and P2 can be crosslinked with the initiator of triarylsulfonium hexafluorophosphate, but the films of Tri-Oxe and Oxa-Oxe can’t. Based on the CV results, the hole injection properties of Tpa-Oxe materials was not significantly changed after crosslinking. Preliminary results also showed that the brightness of all the fabricated PLED devices was in a range of 58~330 Cd/m2 with the efficiency of 0.05~2.69 Cd/A. Due to the fact that Crosslinking can prevent the adjacent chain segments from quenching with each other and restrain the existence of the g band, it increase the number of excitons in P2 to emit light.