Crosslinked ethyl phosphoric acid grafted polybenzimidazole and polybenzimidazole blend membranes for high-temperature proton exchange membrane fuel cells

被引:0
作者
Phimraphas Ngamsantivongsa
Hsiu-Li Lin
T. Leon Yu
机构
[1] Yuan Ze University,Department of Chemical Engineering & Materials Science
[2] Yuan Ze University,Fuel Cell Center
来源
Journal of Polymer Research | 2016年 / 23卷
关键词
Polybenzimidazole; Ethyl phosphoric acid-grafted polybenzimidazole; Epoxide-crosslinked membrane; High-temperature proton exchange membrane fuel cell;
D O I
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中图分类号
学科分类号
摘要
Our previous work illustrated that blending 10–30 wt.% of ethyl phosphoric acid-grafted PBI (PBI-EPA, 12 mol% degree of grafting) in the PBI membrane enhances the phosphoric acid doping level (PAdop) and proton conductivity σ of the membrane. On the other hand, the mechanical properties were decreased, and the membrane was highly dissolved in an 85 wt.% H3PO4 aqueous solution, while the PBI-EPA concentration in the PBI/PBI-EPA blend membrane was greater than 50 wt.%. To improve the mechanical properties of the PBI/PBI-EPA blend membrane, crosslinked PBI/PBI-EPA membranes with a PBI-EPA concentration higher than 50 wt.% were prepared by blending epoxy resin as a crosslinker. These crosslinked blend membranes demonstrated greater PAdop and σ and better fuel cell performance than the neat-PBI and epoxide-crosslinked PBI membranes.
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[1]  
Kreuer KD(2004)undefined Chem Rev 104 4637-4678
[2]  
Paddison SJ(2000)undefined Prog Polym Sci 25 1463-1502
[3]  
Spohr E(2001)undefined J Membr Sci 185 29-39
[4]  
Schuster M(2010)undefined Int J Hydrog Energy 35 9349-9384
[5]  
Rikukawa M(2012)undefined Chem Rev 12 2780-2832
[6]  
Sanui K(2005)undefined J Membr Sci 259 10-26
[7]  
Kreuer KD(1995)undefined J Electrochem Soc 142 L121-L123
[8]  
Peighambardoust SJ(2013)undefined J Power Sources 231 264-278
[9]  
Rowshanzamir S(2010)undefined Chem Soc Rev 39 3210-3239
[10]  
Amjadi M(2004)undefined Fuel Cells 4 147-159