[EN] N-doped mesoporous carbons containing small amounts of graphitic carbon have been successfully prepared using the nanocasting technique. Polypyrrole was used as N-dopant carbon precursor and SBA-15 or silica xerogel as templates. Graphitic carbon domains provide a good electronic conductivity of up to 0.33 S cm−1, a necessary property for electrochemical applications, while a mesoporous structure reduces mass transport limitations. These characteristics are further combined with a high N content (3.55–5.45 wt%). As a result, the as-prepared materials exhibit an enhanced intrinsic electrocatalytic activity towards the oxygen reduction reaction (ORR). They exhibit an onset potential of [similar]−90 to −70 mV vs. Ag/AgCl and a current density in the lower potential regime that exceeds that of a commercial platinum catalyst in a basic medium. Their behavior is superior to that of Vulcan XC72R carbon. Furthermore, unlike commercial Pt catalysts, they are unaffected by the methanol cross-over effect. It was found that the graphitic content must be well-balanced as, on the one hand, it enhances conductivity but, on the other hand, it selectively catalyses an unfavorable 2e− process.
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机译:[EN]使用纳米浇铸技术已成功制备了含少量石墨碳的N掺杂介孔碳。聚吡咯用作N掺杂碳前体,SBA-15或硅胶干凝胶用作模板。石墨碳域可提供高达0.33 S cm-1的良好电子电导率,这是电化学应用的必要性能,而介孔结构则减少了传质限制。这些特征还与高氮含量(3.55-5.45 wt%)结合在一起。结果,所制备的材料对氧还原反应(ORR)表现出增强的固有电催化活性。与Ag / AgCl相比,它们的起始电位约为-90至-70 mV,在较低电位下的电流密度超过了碱性介质中商业铂催化剂的电流密度。它们的行为优于Vulcan XC72R碳。此外,与市售的Pt催化剂不同,它们不受甲醇交叉效应的影响。已经发现,石墨含量必须平衡,一方面,石墨含量提高了电导率,另一方面,它选择性地催化了不利的2e-过程。
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