Michel Marc, Ettingshausen Frank, Scheiba Frieder, Wolz André, Roth Christina
Institute for Materials Science, TU Darmstadt, D-64287, Darmstadt, Germany.
Phys Chem Chem Phys. 2008 Jul 7;10(25):3796-801. doi: 10.1039/b802813n. Epub 2008 May 12.
Membrane electrode assemblies (MEA) for fuel cells require optimization of their nanoscale organization to reach performance parameters, which include enhanced power density, increased catalyst utilization and reduced cost. We applied sprayed layer-by-layer assembly to produce a high activity MEA for H(2)/O(2) fuel cells from polyaniline fibers (PANI-F). This technique produces "fast-prepared" membranes with nanoscale structure, which allows to adequately address specific tuning of their porosity, platinum loading, electronic conductivity, and proton conductivity. Pt nanoparticles were attached to the PANI-F in a reaction of selective heterogeneous nucleation. After functionalization, Pt/PANI-F were assembled with Nafion. Microscopic investigation revealed that functionalized polyaniline fibers formed a highly porous yet tight network of interpenetrating conductors connected to the catalytic Pt particles. The Pt/PANI-F LBL ultrathin MEA demonstrated a power densitiy of 63 mW cm(-2) and yielded a Pt utilization of 437.5 W g(-1) Pt which is comparable to the traditional fuel cell using carbon black as Pt support. Moreover, the amount of Pt used in this work is almost 2 times lower than for usual carbon-supported Pt catalysts.
用于燃料电池的膜电极组件(MEA)需要优化其纳米级结构以达到性能参数,这些参数包括提高功率密度、提高催化剂利用率和降低成本。我们应用喷雾逐层组装法,用聚苯胺纤维(PANI-F)制备了用于H(2)/O(2)燃料电池的高活性MEA。该技术可制备具有纳米级结构的“快速制备”膜,从而能够充分实现对其孔隙率、铂负载量、电子导电性和质子导电性的特定调控。通过选择性异质成核反应,将铂纳米颗粒附着到PANI-F上。功能化后,将Pt/PANI-F与Nafion组装在一起。微观研究表明,功能化的聚苯胺纤维形成了一个高度多孔但紧密的互穿导体网络,该网络与催化铂颗粒相连。Pt/PANI-F逐层组装超薄MEA展示出63 mW cm(-2)的功率密度,铂利用率达到437.5 W g(-1) Pt,这与使用炭黑作为铂载体的传统燃料电池相当。此外,这项工作中使用的铂量几乎比普通碳载铂催化剂低2倍。
