EFFECT OF SONICATION ON THE PROPERTIES OF COMPOSITE POLYPYRROLE/MICROCELLULOSE AND ITS POTENTIAL AS A CAPACITOR

Berlian Sitorus, Deni Pranata, Mariana Bara’allo Malino
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引用次数: 1

Abstract

The research aims to see the effect of sonication on the properties and capacitance of composites made of microcellulose isolated from Oil Palm Empty Fruit Bunches and Polypyrrole (PPy). PPy is a conductive polymer limited by its inflexibility; hence PPy is blended with microcellulose which can serve as a good matrix to increase the flexibility of PPy. The procedure to isolate the microcellulose was done by delignification, bleaching, and hydrolysis. In order to see the effect of sonication, hydrolysis was undertaken in two different ways : (i) without sonication and (ii) using sonication. Besides, the polymerization time for pyrrole was also varied: 4 and 16 hours and simultaneously composited with each microcellulose from (i) and (ii). The results show an increase in cellulose crystallinity from  35.6% without sonication to 40% after sonication, while the diameter of the sonicated microcellulose fibers tends to be smaller than the counterpart. The 4-hour polymerization time shows that the composite containing the unsonicated microcellulose has a higher capacitance than the composite with the sonicated microcellulose, 14.8 nF and 8.8 nF, respectively. Meanwhile, a similar capacitance is measured for the 16-hour polymerization, 1.90 nF and 2.68 nF, using the sonicated and un-sonicated microcellulose. Overall, although the capacitances of the composites are in the nanofarad scale, it can be said that the composite can be potentially used as a capacitor.
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超声对聚吡咯/微纤维素复合材料性能的影响及其作为电容器的潜力
研究了超声对油棕空果束分离的微纤维素与聚吡咯(PPy)复合材料性能和电容的影响。聚吡啶是一种导电聚合物,它的不灵活性限制了它的性能;因此,聚吡啶与微纤维素混合可以作为良好的基质,以增加聚吡啶的柔韧性。通过脱木质素、漂白和水解分离微纤维素。为了观察超声波的效果,水解以两种不同的方式进行:(i)不超声波和(ii)使用超声波。此外,吡罗的聚合时间也不同,分别为4和16小时,同时与(i)和(ii)中的每种微纤维素合成。结果表明,纤维素结晶度从未超声处理的35.6%增加到超声处理后的40%,而超声处理后的微纤维素纤维的直径趋于小于对应的微纤维素纤维。4小时聚合时间表明,含未超声微纤维素的复合材料比含超声微纤维素的复合材料具有更高的电容,分别为14.8 nF和8.8 nF。同时,使用超声和非超声微纤维素,在16小时聚合过程中测量了相似的电容,分别为1.90 nF和2.68 nF。总的来说,虽然复合材料的电容都在纳米级,但可以说复合材料有潜力作为电容器使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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