聚吡咯和聚吡咯/石墨烯(ppy/gn)纳米复合材料的光学和交流电性能

F. Ahmed, S. Hassan
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引用次数: 2

摘要

本研究采用化学氧化法在室温下聚合共轭聚合物“聚吡咯”,通过原位聚合法制备纳米石墨烯,得到纳米(py - gn)。研究了纳米复合材料的光学和电学性能。利用紫外可见光谱法研究了复合材料在200 ~ 800 nm波长范围内的光学性能。结果表明,光吸收光谱正常测定,最大吸收波长为280nm和590nm。通过直接跃迁对光能间隙进行了评估,发现其值从纯PPy的(2.1 eV)下降到5% wt的(1.3 eV)。GN)。研究了带尾宽度ΔE等光学常数,纯聚吡啶的ΔE值为(0.0949eV),而添加5 wt. % GN的ΔE值为(0.5156 eV)。结果表明,纯聚吡啶的乌尔巴赫尾小于PPy/GN纳米复合材料的乌尔巴赫尾,且随GN浓度的增加而增大。在103Hz-106Hz频率范围内,随着频率和GN浓度的增加,交流电导率提高了约4个数量级。s值约为(0.653-0.962),说明导电机制为相关跳变机制(c.h.p.)。测定了介电常数和介电损耗,发现介电常数和介电损耗随频率的增加而减小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical and A.C. Electrical Properties for Polypyrrole and Polypyrrole/Graphene (ppy/gn) Nanocomposites
In this work, chemical oxidation was used to polymerize conjugated polymer "Polypyrrole" at room temperature Graphene nanoparticles were added by in situ-polymerization to get (PPY-GN) nano. Optical and Electrical properties were studied for the nanocomposites. optical properties of the nanocomposites were studied by UV-Vis spectroscopy at wavelength range (200 -800 nm). The result showed optical absorption spectra were normally determined and the result showed that the maximum absorbance wave length at 280nm and 590nm. The optical energy gap has been evaluated by direct transition and the value has decreased from (2.1 eV for pure PPy) to (1.3 eV for 5 %wt. of GN). The optical constants such as the band tail width ΔE was evaluated, the value of ΔE for pure PPy was (0.0949eV) while for 5 wt. % of GN it was (0.5156 eV), It has been observed that the Urbach tail for pure PPy was smaller than that for PPy/GN nanocomposites and it increase as GN concentration increases. The A.C electrical conductivity at range of frequency (103Hz-106Hz) was increased by increasing the frequency and GN concentration about four order of magnitude. The s value was about (0.653-0.962) which means that the mechanism of conductivity is correlated hopping mechanism (C. H. P.). The dielectric constant and dielectric lose were determined and found to decrease with increasing frequency.
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