Ultrathin Wall (1 nm) and Superlong Pt Nanotubes with Enhanced Oxygen Reduction Reaction Performance

The synthesis of Pt nanotubes catalysts remains a substantial challenge, especially for those with both sub‐nanometer wall thickness and micrometer‐scale length characteristics. Combining techniques of insulin fibril template with Pd nanowire template, numerous Pt nanotubes with diameter of 5.5 nm, tube‐length of several micrometers, and ultrathin wall thickness of 1 nm are assembled. These tubular catalysts with both open ends deliver electrochemical active surface area (ECSA) of 91.43 m2 gpt−1 which results from multiple Pt atoms exposed on the inner and outer surfaces that doubled Pt atoms can participate in catalytic reactions, further with enhanced electrocatalytic performance for oxygen reduction reaction (ORR). The ultrafine Pt nanotubes represent a class of hollow nanostructure with increased Pt‐utilization and large ECSA, which is regarded as a type of cost‐effective catalysts for ORR. A type of ultrathin Pt nanotubes with a diameter of 5.5 nm and wall thickness of 1 nm is achieved. These tubular catalysts with both open ends deliver increased electrochemical active surface area, which results from multiple Pt atoms exposed on the inner and outer tubular surfaces, together with excellent electrocatalytic performance for oxygen reduction reaction.