Abstract Current selection through the membrane to the Chitosan is applied to synthesis with biological fuel cell membrane Proton Exchange rather than activated a fio NA is expensive. However, the tissue is selected via a Chitosan has a problem with strength. The durability and the ability to apply a lower Proton versus floorings fio na. This research project is intended to try to improve the quality of the tissue is selected via a Chitosan by composite with nickel peroxide, which contains Nano-particle size level. By the new kasueng SIM sak Sullivan fo acid as a link of chain wire cordoned off between Chitosan to add the ability to bring Proton. Then the composite with nickel peroxide by SEM and TEM properties, chemical structure analysis via a mechanical properties test FT-IR, the ability to absorb water, and the ability to bring the Proton found that Chitosan membrane filled through selection of acid-free folders new SIM sak Sullivan and components.Visit with nickel peroxide mechanical properties is the resistance to tensile strength MPa with proton conductivity xxx xxx S/cm tissue is selected via the haven't Chitosan composite with nickel peroxide is greater tensile strength MPa and proton conductivity xxx xxx S/cm compared tissue is selected via a Chitosan after improvement by composite with nickel peroxide from the experiments show that the membrane is selected via a Chitosan composite with nickel peroxide effective drunk.
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