Department of Advanced Materials Chemistry, Korea University, Jochiwon, ChungNam 339-700, Republic of Korea.
Phys Chem Chem Phys. 2010 Dec 14;12(46):15274-81. doi: 10.1039/c0cp00767f. Epub 2010 Oct 18.
Combinatorial synthesis and screening were used to identify methanol-tolerant non-platinum cathode electrocatalysts for use in direct methanol fuel cells (DMFCs). Oxygen reduction consumes protons at the surface of DMFC cathode catalysts. In combinatorial screening, this pH change allows one to differentiate active catalysts using fluorescent acid-base indicators. Combinatorial libraries of carbon-supported catalyst compositions containing Ru, Mo, W, Sn, and Se were screened. Ternary and quaternary compositions containing Ru, Sn, Mo, Se were more active than the "standard" Alonso-Vante catalyst, Ru(3)Mo(0.08)Se(2), when tested in liquid-feed DMFCs. Physical characterization of the most active catalysts by powder X-ray diffraction, gas adsorption, and X-ray photoelectron spectroscopy revealed that the predominant crystalline phase was hexagonal close-packed (hcp) ruthenium, and showed a surface mostly covered with oxide. The best new catalyst, Ru(7.0)Sn(1.0)Se(1.0), was significantly more active than Ru(3)Se(2)Mo(0.08), even though the latter contained smaller particles.
组合合成和筛选被用于鉴定甲醇耐受型非铂阴极电催化剂,以用于直接甲醇燃料电池(DMFC)。氧还原在 DMFC 阴极催化剂表面消耗质子。在组合筛选中,这种 pH 值变化允许使用荧光酸碱指示剂来区分活性催化剂。对含有 Ru、Mo、W、Sn 和 Se 的碳负载催化剂成分的组合文库进行了筛选。在液体进料 DMFC 中测试时,含有 Ru、Sn、Mo、Se 的三元和四元组合物比“标准”Alonso-Vante 催化剂 Ru(3)Mo(0.08)Se(2)更具活性。通过粉末 X 射线衍射、气体吸附和 X 射线光电子能谱对最活跃的催化剂进行物理特性分析表明,主要的结晶相是六方密堆积(hcp)钌,并且表面主要覆盖有氧化物。最佳的新型催化剂 Ru(7.0)Sn(1.0)Se(1.0)比 Ru(3)Se(2)Mo(0.08)活性高得多,尽管后者的颗粒较小。
