บทคัดย่อ ปัจจุบันเยื่อเลือกผ่านไคโต

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 with more efficiency.

Abstract
present chitosan membrane was synthesized to be applied to bio-fuel cell proton exchange membrane instead of a field on which a material is expensive. However, membrane chitosan are problems with strength. Lifetime And the ability to bring proton lower compared with Nafis on. This research project aims to try to improve the quality of chitosan membrane by composite with nickel peroxide, which is a tiny nanoparticles. The sulfonic acid succinate Koenig, a crosslinking agent between chitosan chains to enhance the proton conductivity. The composite with nickel peroxide. And testing using SEM TEM, chemical analysis via FT-IR, mechanical properties. The ability to absorb water. And the ability to bring proton The membrane chitosan acid sulfonic succinic and composite with nickel peroxide mechanical properties is the resistance to tensile xxx MPa with proton conductivity xxx S / cm membrane. Chitosan is not composite with nickel peroxide has a tensile strength xxx MPa and proton conductivity xxx S / cm compared membrane chitosan after improving by the composite with nickel peroxide. The trials showed that the chitosan membrane through which the composite with nickel peroxide is more effective.

Abstract
.At present, the chitosan membrane was synthesized and applied to biological fuel cell proton exchange membrane instead of using นาฟิ on which material is expensive.The lifetime. And the ability of the proton is lower compared to the นาฟิ eon.With the addition of acid sulfate fo succinic which as crosslinking agents between the chain of chitosan to enhance the application of proton. Then the composite with nickel peroxide And test technique, SEM TEM propertiesAnalysis of the chemical structure, through FT-IRMechanical properties testing the ability to absorb water. And the ability of the proton. Found that the membrane of chitosan sulfate acid, succinic and composite with nickel peroxide mechanical property is the resistance to tensile strength XXX.The application of proton XXX S / chitosan membrane cm not composite with nickel peroxide มีค่าความต้านทาน tensile MPa XXX and proton conductivity XXX S / cm.From the experimental results show that the membrane of chitosan through the other composite with nickel peroxide is more powerful than
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