Proton exchange membrane -based

Basura, V. I., Chuy, C., Beattie, P. D. and Holdcroft, S. 2001. Effect of equivalent weight on electrochemical mass transport properties of oxygen in proton exchange membranes based on sulfonated a,j3,j3-trifluorostyrene (BAM) and sulfonated-styrene-(ethylene-butylene)-styrene triblock (DAIS-analytical) copolymers. Journal ofElectroanalytical Chemistry 501 77-88. [Pg.172]

Xue, S. N. and Yin, G. P. 2006. Proton exchange membranes based on polyjvinylidene fluoride) and sulfonated polyjether ether ketone). Polymer 47 5044-5049. [Pg.184]

Mokrini, A. and Huneault, M. A. 2006. Proton exchange membranes based on PVDF/SEBS blends. Journal of Power Sources 154 51-58. [Pg.184]

Gao, Y., Robertson, G. R, Guiver, M. D., Jian, X. G., Mikhailenko, S. D. and Kaliaguine, S. 2005. Proton exchange membranes based on sulfonated poly(phthalazinone ether ketone)s/aminated polymer blends. Solid State Ionics 176 409-415. [Pg.185]

Quinfeng L, Jensen JO, Savinell RF, Bjerrum NJ (2009) High temperature proton exchange membranes based on polybenzimidazoles for fuel cells. Prog Polym Sci 34 339 77... [Pg.100]

Fuel Cell Applications of Proton-Exchanging Membranes Based On Aromatic Condensation Polymers... [Pg.127]

The significant contribution of Nafion or perfluorosulfonic membranes to the cost of the fuel cells stacks and the high alcohol crossover levels that affect the fuel efficiency, prompted the development of radiation grafted proton exchange membranes based on poly(ethylene-tetrafluoroethylene) (ETFE) [172-178], PVdF [175], andPTFE [179]. The peroxy radicals produced on the base polymer by y-ray, electron- or proton-beam, react with styrene to form a co-polymer that is then sulphonated. [Pg.130]

Shen J, Xi J, Zhu W, Chen L, Qiu X (2006) A nanocomposite proton exchange membrane based on PVDF, poly(2-acrylamido-2-methyl propylene sulfonic acid), and nano-Al203 for direct methanol fuel cells. J Power Sources 159 894—899... [Pg.229]

Lee CH, Chen SH, Wang YZ, Lin CC, Huang CK, Chuang CN, et al. Preparation and characterization of proton exchange membranes based on semi-interpenetrating sulfonated poly (imide-siloxane)/epoxy polymer networks. Energy 2013 55 905-15. [Pg.368]

Figure 4. Lifetime lest of a FBI cell under continuous operation at a constant voltage 0.5V and different temperatures with hydrogen and oxygen at ambient pressure. The membrane was fabrieated from linear polymer with an average molecular weight of about 25.000 g mol. Reprinted from Q. Li, J. O. Jensen, R. F. Savinell and N. J. Bjerrum, High temperature proton exchange membranes based on polybenzimidazoles for fuel eells. Progress in Polymer Science, 34 (2009) 449-477. Copyright (2009) with permission from Elsevier.

Brijmohan, S. M. Shaw, M. T., Proton Exchange Membranes Based on Sulfo-nated Crosslinked Polystyrene Micro Particles Dispersed in Poly(dimethylsiloxane). Polymer 2006,47, 2856-2864. [Pg.112]

N. Li, Z. Cui, S. Zhang, S. Li, F. Zhang, Preparation and evaluation of a proton exchange membrane based on oxidation and water stable sulfonated polyimides, J. Power Sources 172 (2) (2007)511-519. [Pg.184]

A. Mokrini, M.A. Huneault, P. Gerard, Partially fluorinated proton exchange membranes based on PVDF-SEBS blends compatibilized with methylmethacrylate block copolymers, J. Membr. Sci. 283 (1-2) (2006) 74-83. [Pg.316]

Ghielmi, A., Vaccarono, P., Troglia, C., and Arcella, V. (2005) Proton exchange membranes based upon the short-side-chain perfluorinated ionomer. J. Power Sources, 145, 108-115. [Pg.404]

Arico AS, Baglio V, Di Blasi A et al (2006) Proton exchange membranes based on the short-side-chain perfluorinated ionomer for high temperature direct methanol fuel cells. Desalination 199 271-273... [Pg.38]

Plackett D, Siu A, Li Q et al (2011) High-temperature proton exchange membranes based on polybenzimidazole and clay composites for fuel cells. J Membr Sci 383 78-87... [Pg.88]

Xu W, Liu C, Xue X et al (2004) New proton exchange membranes based on poly(vinyl alcohol) for DMFCs. Solid State Ion 171 121-127... [Pg.272]

Guan YS, PuHT, JinM, Chang ZH, WanDC (2010) Preparation and characterisation of proton exchange membranes based on crosslinked polybenzimidazole and phosphoric acid . Fuel Cells 10 973. [Pg.67]

Figure 7.3 Proton exchange membrane-based fuel cell showing the critical elements.

T. Yamaki, K. Kobayashi, M. Asano, H. Kubota and M. Yoshida, Preparation of proton exchange membranes based on cross-hnked polytetrafluoroethylene for fuel ceU applications, Polymer 45, 6569 (2004). [Pg.113]

Proton Exchange Membranes Based on Hydrocarbon Polymers... [Pg.118]

Numerous works by other authors and our own research group describe the syntheses of new proton exchange membranes based on hydrocarbon polymers. The characteristics of these new materials, which determine their potential applications, are discussed in detail. A review of electrochemical properties, water uptake, and thermal stability makes possible a comprehensive understanding of the proton conduction mechanism and physical state of absorbed water in these systems. [Pg.119]

Fig. 6.2 Chemical structures of proton exchange membranes based on a hydrocarbon polymer backbone...

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