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Oriented MOF-polymer composite nanofiber membranes for high proton conductivity at high temperature and anhydrous condition.


ABSTRACT: The novel oriented electrospun nanofiber membrane composed of MOFs and SPPESK has been synthesized for proton exchange membrane fuel cell operating at high temperature and anhydrous conditions. It is clear that the oriented nanofiber membrane displays the higher proton conductivity than that of the disordered nanofiber membrane or the membrane prepared by conventional solvent-casting method (without nanofibers). Nanofibers within the membranes are significantly oriented. The proton conductivity of the oriented nanofiber membrane can reach up to (8.2 ± 0.16) × 10(-2)?S cm(-1) at 160°C under anhydrous condition for the highly orientation of nanofibers. Moreover, the oxidative stability and resistance of methanol permeability of the nanofibers membrane are obviously improved with an increase in orientation of nanofibers. The observed methanol permeability of 0.707 × 10(-7)?cm(2) s(-1) is about 6% of Nafion-115. Consequently, orientated nanofibers membrane is proved to be a promising material as the proton exchange membrane for potential application in direct methanol fuel cells.

SUBMITTER: Wu B 

PROVIDER: S-EPMC4118289 | biostudies-literature | 2014 Aug

REPOSITORIES: biostudies-literature

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Oriented MOF-polymer composite nanofiber membranes for high proton conductivity at high temperature and anhydrous condition.

Wu Bin B   Pan Jiefeng J   Ge Liang L   Wu Liang L   Wang Huanting H   Xu Tongwen T  

Scientific reports 20140801


The novel oriented electrospun nanofiber membrane composed of MOFs and SPPESK has been synthesized for proton exchange membrane fuel cell operating at high temperature and anhydrous conditions. It is clear that the oriented nanofiber membrane displays the higher proton conductivity than that of the disordered nanofiber membrane or the membrane prepared by conventional solvent-casting method (without nanofibers). Nanofibers within the membranes are significantly oriented. The proton conductivity  ...[more]

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