Modification on Nafion Proton Exchange Membranes to Reduce Methanol Crossover in PEM Fuel Cells

Nengyou Jia; Mark C. Lefebvre; John Halfyard; Zhigang Qi; Peter G. Pickup

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Modification on Nafion Proton Exchange Membranes to Reduce Methanol Crossover in PEM Fuel Cells

机译：Nafion质子交换膜的改性以减少PEM燃料电池中的甲醇穿越

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Commercial sulfonated fluorocarbon membranes (Nafion) have been impregnated with poly(1-methylpyrrole) by in situ polymerization. This can lead to a decrease of more than 90% in the permeability of the membranes to methanol, although the ionic resistance of such heavily loaded membranes becomes too high for high power fuel cells. At lower poly(1-methylpyrrole) loadings, a decrease in methanol permeability by as much as 50% can be realized without a significant increase in ionic resistance. Such modified membranes can provide comparable performances to the original membranes in hydrogen fuel cells.

机译：通过原位聚合，已经用聚（1-甲基吡咯）浸渍了商业化的磺化碳氟化合物膜（Nafion）。尽管对于高功率燃料电池来说，这种重载膜的离子电阻变得太高，但是这可能导致膜对甲醇的渗透率降低超过90％。在较低的聚（1-甲基吡咯）负载下，可以实现甲醇渗透率降低多达50％，而不会显着提高离子电阻。这样的改性膜可以提供与氢燃料电池中的原始膜相当的性能。

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《Electrochemical and solid-state letters》 |2000年第12期|共3页
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Nengyou Jia; Mark C. Lefebvre; John Halfyard; Zhigang Qi; Peter G. Pickup;
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1. Modification on Nafion Proton Exchange Membranes to Reduce Methanol Crossover in PEM Fuel Cells [J] . Nengyou Jia, Mark C. Lefebvre, John Halfyard, Electrochemical and solid-state letters . 2000,第12期

机译：Nafion质子交换膜的改性以减少PEM燃料电池中的甲醇穿越
2. Surface modification of Nafion membranes by ion implantation to reduce methanol crossover in direct methanol fuel cells [J] . Lee Jung-Soo, Hwang In-Tae, Jung Chan-Hee, RSC Advances . 2016,第67期

机译：离子植入氮素膜的表面改性，以减少直接甲醇燃料电池中的甲醇交叉
3. Surface modification of Nafion membranes by ion implantation to reduce methanol crossover in direct methanol fuel cells [J] . Jung-Soo Lee, In-Tae Hwang, Chan-Hee Jung, RSC Advances . 2016,第67期

机译：离子植入氮素膜的表面改性，以减少直接甲醇燃料电池中的甲醇交叉
4. Suppression of Methanol Crossover for Direct Methanol Fuel Cells using a Layer of Nanometer-sized Pt_(50)-Sn_(50) Catalyst Particles Deposited on Proton Exchange Membrane Surface [C] . Chieh-Hao Wan, Jyun-Ming Wei Proceedings of the 7th international conference on fuel cell science, engineering, and technology 2009 . 2009

机译：使用沉积在质子交换膜表面的纳米级Pt_（50）-Sn_（50）催化剂颗粒层抑制直接甲醇燃料电池的甲醇穿越
5. New bimetallic catalysts for direct methanol (DMFC) and proton exchange membrane (PEM) fuel cells. [D] . Kwiatkowski, Krzysztof Czeslaw. 2000

机译：用于直接甲醇（DMFC）和质子交换膜（PEM）燃料电池的新型双金属催化剂。
6. Composite Proton Exchange Membranes Based on Chitosan and Phosphotungstic Acid Immobilized One-Dimensional Attapulgite for Direct Methanol Fuel Cells [O] . Wen-Chin Tsen 2020

机译：基于壳聚糖的复合质子交换膜固定的一维甲弧菌直接甲醇燃料电池
7. A Nafion-Ceria Composite Membrane Electrolyte for Reduced Methanol Crossover in Direct Methanol Fuel Cells [O] . Parthiban Velayutham, Akhila K. Sahu, Sridhar Parthasarathy 2017

机译：Nafion-Ceria复合膜电解质用于降低直接甲醇燃料电池中甲醇的交换
8. Multi-scale Modeling of Proton Transport, Water Distribution, and Methanol Permeability in Proton Exchange Membranes (PEMs); Final rept [R] . Paddison, S. J., Tuckerman, M. E. 2008

机译：质子交换膜（pEm）中质子输运，水分配和甲醇渗透率的多尺度模拟;最终的评论

Modification on Nafion Proton Exchange Membranes to Reduce Methanol Crossover in PEM Fuel Cells

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