Shim, Jongmin Lee, Jaehyuk Ye, Youngjin Hwang, Jongkook Kim, Soo-Kil Lim, Tae-Hoon Wiesner, Ulrich Lee, Jinwoo 2024-01-20T14:04:35Z 2024-01-20T14:04:35Z 2022-01-25 2012-08 1936-0851 https://pubs.kist.re.kr/handle/201004/128992 This study describes the one-pot synthesis and single-cell characterization of ordered, large-pore (>30 nm) mesoporous carbon/silica (OMCS) composites with well-dispersed intermetallic PtPb nanoparticles on pore wall surfaces as anode catalysts for direct formic acid fuel cells (DFAFCs). Lab-synthesized amphiphilic diblock copolymers coassemble hydrophobic metal precursors as well as hydrophilic carbon and silica precursors. The final materials have a two-dimensional hexagonal-type structure. Uniform and large pores, in which intermetallic PtPb nanocrystals are significantly smaller than the pore size and highly dispersed, enable pore backfilling with ionomers and formation of the desired triple-phase boundary in single cells. The materials show more than 10 times higher mass activity and significantly lower onset potential for formic acid oxidation as compared with commercial Pt/C, as well as high stability due to better resistivity toward CO poisoning. In single cells, the maximum power density was higher than that of commercial Pt/C, and the stability highly improved, compared with commercial Pd/C. The results suggest that PtPb-based catalysts on large-pore OMCSs may be practically applied as real fuel cell catalysts for DFAFC. English AMER CHEMICAL SOC One-Pot Synthesis of Intermetallic Electrocatalysts in Ordered, Large-Pore Mesoporous Carbon/Silica toward Formic Acid Oxidation Article 10.1021/nn301692y 1 ACS NANO, v.6, no.8, pp.6870 - 6881 ACS NANO 6 8 6870 6881 N scie scopus 000307988900040 2-s2.0-84865577025 Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Chemistry Science & Technology - Other Topics Materials Science Article BOROHYDRIDE REDUCTION SUPPORTED PLATINUM DIBLOCK COPOLYMER PTPB/C CATALYST ANODE CATALYST PARTICLE-SIZE CARBON ELECTROOXIDATION NANOPARTICLES PD block copolymer self-assembly mesoporous structure intermetallic nanoparticles formic acid fuel cell