Marta Moreno-González , Peter Mardle , Shan Zhu , Bobak Gholamkhass , Scot Jones , Nathan Chen , Benjamin Britton , Steven Holdcroft
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引用次数: 11
摘要
我们使用一种标称厚度为85 μm的高离子导电性、化学稳定性、机械强度高的增强阴离子交换膜(AEM),报道了一种AEM水电解槽,在70°C、1 M KOH电解质下运行超过一年,H2交叉低于工业极限。观察到的最小降解是由于膜-电极组装,而不是由于膜,在运行1年后,其离子电导率的变化可以忽略不计。在第二个电池运行5000小时(7个月)时,从阴极到阳极的最小氢交叉量为0.4%。该研究表明,未来零间隙碱性水电解槽的研究方向应是开发活性稳定的催化剂,以及为AEM水电解槽量身定制的稳定催化剂层的形成和集成。
One year operation of an anion exchange membrane water electrolyzer utilizing Aemion+® membrane: Minimal degradation, low H2 crossover and high efficiency
Using a highly ion conductive, chemically stable, mechanically robust, reinforced anion exchange membrane (AEM) of nominal thickness 85 μm, we report an AEM water electrolyzer operating for longer than one year at 70 °C with 1 M KOH electrolyte, with H2 crossover below industrial limits. The minimal degradation observed is due to the membrane-electrode-assembly and not due to the membrane, which exhibits negligible change in its ionic conductivity after >1 yr operation. A minimal hydrogen crossover from cathode to anode of <0.4% was also measured for a second cell running for 5000 h (>7 months). This study shows that future research towards zero gap alkaline water electrolyzers should be directed to the development of active and stable catalysts and the formation and integration of stable catalyst layers tailored to AEM water electrolyzers.
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