The goal of this research is aimed to synthsize hyperbranched polyfluorenes containing tetrachloroperylene bisimide as bridging moiety, and to investigate their molecular weights, optical properties, and electrochemical properties. The GPC results show that Mn and Mw increase about 83% and 150% after incorporating tetrachloroperylene bisimide as bridging moieties; however, the PDI values also increase. On the other hand, the growth of molecular weights is smaller by introduction of bridging moieties containing alkyl spacers. The TGA and DSC data reveal that hyperbranched structure improves the thermal stabilities of synthesized polymers. The UV-vis absorption spectra are blue-shifted in thin film due to the decrease of planarity of polyfluorene by introducing bridging moieties. However, the difference in PL spectra of three polymers is insignificant, showing emission maxima at 438 nm in thin film. The HOMO level of three polymers is very close since it is mainly determined by polyfluorene main chains. Besides, PL spectra and EL spectra are similar, it means that they have the same luminescence mechanism. The current yield and brightness are increased by introducing PBI as bridging moieties. PBI is a electron transport materials , it makes that the hole-injected rate and the electron-injected rate are became near.