In this thesis, a series of PPV system polymers was synthesized and the relationships between chemical structure design and thermal stability、optical properties、electro-chemical properties or device performance are discussed.
　　At first, a series of PPV-Fluorene system copolymers was synthesized and discussed into three aspects (1) Molecular Weight Effect in PLED. (2) End Group Effect in PLED. (3) Copolymer and Tricopolymer Comparability in PLED. By doing research in these three systems, we interiorize the application of PPV-Fluorene system luminescent polymers in polymer light emitting diode (PLED).
　　It is found that the molecular weight mainly affects the film quality in device manufacturing when molecular weight increasing to a certain degree. End group is also an important improvement factor for luminescent properties of device, especially for applying triphenylamine group. On the other hand, based on luminescence conversion mechanism, a high efficiency PLED based on yellowish-white light CIE 1931 (0.423, 0.429) is successfully fabricated by simple spin-coating process. The device has 3 cd/A of efficiency and 400 cd/m2 of brightness.
　　By combining dibromobenzo thiadiazole group into PPV-Fluorene system copolymers as tricopolymers, a high brightness green light PLED device is also successfully fabricated. The device has 2.3 cd/A of efficiency and 4250 cd/m2 of brightness.