Synthesis of Conducting Polymer Films by Plasma Polymerization Process

机译：等离子体聚合过程对聚合物膜的合成

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A microwave (MW) plasma reactor for the synthesis of polythiophene (PTh) thin films as well as in situ doping during polymerization process has been designed and assembled. Plasma polymerization parameters were studied. A good MW power was found to be in the range of 150- 250W. PTh films were characterized by various spectrophotometric methods. IR analyses showed absorption frequencies of important functional groups. PTh films exhibited UV-Vis spectra indicative of increased conjugative systems as the MW power increased although at 300 and 380W partial fragmentation was evident. Surface analysis by SEM revealed a uniformly deposited film morphology. EDS results were also suggestive of partial fragmentation of the films at high MW powers. Preliminary conductive measurements revealed that the undoped films exhibit higher conductivity (3 to 9×10~(-5) s.cm~(-1)) than PTh typically prepared from electrochemical methods.

机译：设计和组装了用于合成聚聚乙烯（PTH）薄膜（PTH）薄膜（PTH）薄膜的微波（MW）血浆反应器，并组装了聚合过程中的原位掺杂。研究了等离子体聚合参数。发现良好的MW力量在150-250W的范围内。 PTH膜的特征是通过各种分光光度法的方法。 IR分析显示了重要官能团的吸收频率。 PTH薄膜表现出UV-Vis光谱，其表示随着MW功率增加的增加，尽管在300和380W的部分碎片中显而易见。 SEM表面分析显示均匀沉积的薄膜形态。 EDS结果还提出了在高MW功率下薄膜的部分碎片化。初步导电测量显示，未掺杂的薄膜表现出更高的导电性（3至9×10〜（-5）S.CM〜（-1）），而不是通常由电化学方法制备的PTH。

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《International Conference on Smart Materials - Smart/Intelligent Materials and Nanotechnology》|2008年||共4页
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W. Bhanthumnavin; P. Kamphiranon; B. Paosawatyanyong;
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中图分类 TB383-53;
关键词
Microwave plasma polymerization; Polythiophene;

机译：微波等离子体聚合;聚苯乙烯;

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Synthesis of Conducting Polymer Films by Plasma Polymerization Process

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