Fuel cell consists of an electrolyte, which connected to the anode and cathode through a polyelectrolyte membrane in which the membrane is capable of delivering protons from the anode toward the cathode. The aim of this study is to know the effect of acid on the membrane composite phosphotungstic chitosan/montmorillonite-silane 10% of the ion exchange capacity, proton conductivity and methanol permeability using a variation of the 0; 0.5; 1.0; 1.5%, respectively. The additions of phosphotungstic acid increased the proton conductivity and ion exchange capacity. However, in this study, the highest proton conductivity on chitosan/ montmorillonite-silane 10%/1.0% phosphotungstic acid caused by a strong hydrophilic nature phosphotungstic acid.

Membrane; Methanol Permeability; Proton Conductivity and Ion Exchange Capacity

Spiegel, C.S., Designing & Building Fuel Cells. The McGraw-Hill Companies. United States of America, 2007.

Jiang Z., Hong Wu. Zheng B., Zheng X., Wang J., Yuan W, “Surface-modified Y zeolite-filled chitosan

membrane for direct methanol fuel cell”, Journal of Power Sources, Vol. 173, pp. 842-852, 2007.

Cui, Z., Xing, W., Liu, C., Liou, J., Zhang, H.,“Chitosan/heteropolyacid composite membranes for direct methanol fuel cell”, Journal of Power Sources, Vol. 188, pp. 24-29, 2009