吡咯-苯胺共聚物的化学、电化学和等离子体聚合及其表征

Hikmet Bora Sarikulak, Songül Şen Gürsoy
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摘要

采用化学、电化学和等离子体聚合三种方法合成了吡咯-苯胺共聚物(聚吡咯-苯胺)。对三种方法合成的共聚物进行了比较。傅里叶变换红外光谱(FT-IR)、热重分析(TG-DTA)、扫描电镜(SEM)和电导率测试结果证实,在合成方法不同的情况下,均成功制备了聚(Py-co-Ani)共聚物。结果表明,等离子体法提高了聚吡啶共聚物的热稳定性。化学、电化学和等离子体聚合共聚物的首次热分解温度分别为210℃、190℃和250℃。但等离子体聚合共聚物的电导率值(1,97 × 10-4 S.cm-1)低于化学合成共聚物(4,40 × 10-4 S.cm-1)和电化学合成共聚物(3,14 × 10-4 S.cm-1)。根据研究结果,化学聚合和电化学聚合方法使共聚物具有几乎相同的性能。等离子体聚合法为共聚物提供了更好的热性能。这三种方法均可用于制备吡咯-苯胺共聚物。
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Chemical, Electrochemical and Plasma Polymerization of Pyrrole-Aniline Copolymers and Their Characterization
Pyrrole-aniline copolymers (poly(Py-co-Ani)) were synthesized using both three chemical, electrochemical and plasma polymerization methods. Comparison of the copolymers synthesized with three methods was investigated. Fourier transform infrared spectroscopy (FT-IR), thermogravymetric analysis (TG-DTA), scanning electron microscopy (SEM) and conductivity results confirmed that the poly(Py-co-Ani) copolymers were successfully obtained in all cases with some differences according to synthesis methods. It was found that plasma method enhanced the thermal stability of the poly(Py-co-Ani) copolymer. The first thermal decomposition temperatures of chemically, electrochemically and plasma polymerized copolymers are 210, 190 and 250 °C, respectively. However, the conductivity value of plasma polymerized copolymer (1,97x10-4 S.cm-1) is lower than that of chemical (4,40x10-4 S.cm-1) and electrochemical (3,14x10-4 S.cm-1) synthesized copolymers. According to findings chemical and electrochemical polymerization methods provides nearly the same properties to the copolymers. Plasma polymerization method provides better thermal properties to copolymer. The both three methods can be used for preparing the pyrrole and aniline copolymers.
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