Sulfonated Nano-bentonit as Doping Material in Chtiosan/PVA membrane in Fuel cell Application

ALKIMIA : Jurnal Ilmu Kimia dan Terapan Pub Date : 2022-01-17 DOI:10.19109/alkimia.v5i1.10220

N. Ariesta

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Abstract

Electrolyte membrane of fuel cell is the main component that plays a role in separating the reactants and being a means of transporting hydrogen ions produced by the anode reaction to the cathode so that the reaction at the cathode produces electrical energy. Chitosan/PVA/Nanobentonite based membrane was made of natural bentonite form Karang Tengah, Bogor. The study was conducted to know the effect of particle size of doping materials added to chitosan/PVA membrane for fuel cell. The method used in the experiment was casting method with variation of concentration of sulfonated bentonite. Then, membranes were namely C/PVA/n-ben 0.3, 0.6 and 0.9. The membrane that had been synthesized was identified by swelling test, proton conductivity test and cation exchange capacity test then characterized by FTIR, SEM and XRD. The result of the experiment showed the best swelling test was presented on the membrane with concentration of 0.9% sulfonated bentonite by 62.79% and the best proton conductivity test was shown on a membrane with a concentration of 0.6% sulfonated bentonite which was 2.24 x 10-6 S/cm, supported by the result of the cation exchange capacity data.

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磺化纳米膨润土作为掺杂材料在壳聚糖/聚乙烯醇膜燃料电池中的应用

燃料电池的电解质膜是起分离反应物作用的主要部件，是将阳极反应产生的氢离子输送到阴极，使阴极反应产生电能的手段。壳聚糖/聚乙烯醇/纳米膨润土基膜是由来自茂物卡朗登加的天然膨润土制成的。研究了壳聚糖/聚乙烯醇膜中掺杂材料粒径对燃料电池膜性能的影响。实验采用的是随磺化膨润土浓度变化的浇注法。膜分别为C/PVA/n-ben 0.3、0.6和0.9。通过膨胀试验、质子电导率试验和阳离子交换容量试验对合成的膜进行了鉴定，并用FTIR、SEM和XRD对其进行了表征。实验结果表明，当磺化膨润土浓度为0.9%时，膜的溶胀率为62.79%;当磺化膨润土浓度为0.6%时，膜的质子电导率为2.24 × 10-6 S/cm，这与阳离子交换容量数据的结果一致。

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ALKIMIA : Jurnal Ilmu Kimia dan Terapan

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