...大学》2007年硕士论文 黄成勇 【摘要】: 由质子交换膜(Proton Exchange Membrane,PEM)及两侧涂覆的催化层(Catalyst Layers,CL)三部分组成的膜电极(Catalyst Coated Membrane,CCM)是质子交换膜燃料电池(...
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The CCMs prepared by the decal method showed a better contact between the electrolyte and the catalyst layer.
采用转印法制备CCM可以改善催化层与电解质的接触。
参考来源 - 直接甲醇燃料电池电解质负载催化层的制备与性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
阴极催化层厚度减小,可提高电池输出电压;
When the thickness of cathodic catalyst layer is decreased, the electrode potential is increase.
研究的区域包括阴极和阳极的流道、扩散层、催化层和质子交换膜。
The studied domain consists of fluid channels, diffusion layers and catalyst layers of anode and cathode, and membrane.
该双催化层阴极结构有利于氧气扩散和水的排出,提高了电池性能。
The double-layered structure was beneficial for oxygen diffusion and water removal, and thus improved the DMFC performance.
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