应用两亲软化学法,将纳米铂有效地分散在多层碳纳米管阵列(ACNT)表面,使其得以修饰,形成了高活性的阴极催化材料,用于制备结构膜阴极组合件(MEA)。对MEA进行的形态学和电化学测试,证明可以大大改善质子交换膜燃料电池(PEMFC)的纳米结构和电化学性能。该种阴极催化材料除了表面均匀及高活性之外,还表现出比目前设计出的PEMFC高出约6倍的输出功率,在一定电位下的氧气中可以达到900 mW·cm-2,而贵金属铂搭载量则显著降低至0.14～0.19 mg·cm-2。实验结果表明,由于碳纳米管阵列的厌水性保证了电极性能的稳定性,从而为提高PEMFC电池的长期稳定性及降低成本提供了一条新的解决思路,具有一定的学术研究价值和经济应用价值。 The amphiphilic soft chemistry method was used to effectively disperse nano-platinum on the surface of multi-walled carbon nanotube arrays (ACNTs) to form a highly active cathode catalytic material for the fabrication of a membrane cathode assembly (MEA) . Morphology and electrochemical testing of the MEA demonstrated that the nanostructure and electrochemical performance of PEMFCs can be greatly improved. In addition to its uniform surface and high activity, the cathode catalyst exhibits an output power about 6 times higher than that of the currently designed PEMFC, and can reach 900 mW · cm-2 in oxygen at a certain potential. However, the precious metal Platinum loading was significantly reduced to 0.14 ~ 0.19 mg · cm-2. The experimental results show that due to the hydrophobicity of the carbon nanotube array, the stability of the electrode performance is guaranteed, thereby providing a new solution for improving the long-term stability and reducing the cost of the PEMFC battery, and has certain academic research value and economic application value .