摘要
導電高分子具有獨特的光電性質與半導體特性,成為目前熱門的高分子光電材料,其應用廣泛如:有機發光二極體、有機場效電晶體、電致變色材料、太陽能電池等。 本研究主要研究導電高分子之電性質,比較alternating copolymer、 random copolymer對導電性質之影響,同時以四點探針、 GPC、FT-IR去研究其結構,研究發現導電度alternating copolymer為random copolymer的十倍。 利用氧化聚合法方式製備Poly(3,4-ethylenedioxythiophene)有機高分子材料,將低導電率PEDOT:PSS中加入不同有機物質或是加入高極性solvent如:乙二醇、DMSO以探討各種有機極性物質對PEDOT:PSS的薄膜的導電率,四點探針分析中,PEDOT:PSS中的導電率有增加的現象,trinitrobenzene(TNB)能在acetonitrile中均勻分散,藉由加入NMP、DMSO、Ethyleneglycol、CuCl2、TNB來觀察有機溶劑加入的導電率變化及探討其UV劣化現象。
並列摘要
Polythiophene is an important polymer, which can be used as OLED, feed effect transition, and solar-cells. In this experiment, poly(3,4-ethylenedioxythiophene) is synthesized. Their physical propertise are investigated by FTIR, UV, and NMR. The thermal stability is improved by silane treatment. The reason for increasing the thermal stability is the crosslinking reation occurred after the silan freatments. On the other hand, the PEDOT conductivity is studied by changing the solvent, doping material. The structure properties relationships is elucidated in this study.