首页> 外文期刊>Angewandte Chemie >Carbon Nanotubes/Heteroatom-Doped Carbon Core-Sheath Nanostructures as Highly Active, Metal-Free Oxygen Reduction Electrocatalysts for Alkaline Fuel Cells
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Carbon Nanotubes/Heteroatom-Doped Carbon Core-Sheath Nanostructures as Highly Active, Metal-Free Oxygen Reduction Electrocatalysts for Alkaline Fuel Cells

机译:碳纳米管/杂原子掺杂的碳芯鞘纳米结构作为用于碱性燃料电池的高活性,无金属的氧还原电催化剂

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摘要

A facile, scalable route to new nanocomposites that are based on carbon nanotubes/heteroatom-doped carbon (CNT/HDC) core-sheath nanostructures is reported. These nanostructures were prepared by the adsorption of heteroatom-containing ionic liquids on the walls of CNTs, followed by carbonization. The design of the CNT/HDC composite allows for combining the electrical conductivity of the CNTs with the catalytic activity of the heteroatom-containing HDC sheath layers. The CNT/HDC nanostructures are highly active electrocatalysts for the oxygen reduction reaction and displayed one of the best performances among heteroatom-doped nanocarbon catalysts in terms of half-wave potential and kinetic current density. The four-electron selectivity and the exchange current density of the CNT/HDC nanostructures are comparable with those of a Pt/C catalyst, and the CNT/HDC composites were superior to Pt/C in terms of long-term durability and poison tolerance. Furthermore, an alkaline fuel cell that employs a CNT/HDC nanostructure as the cathode catalyst shows very high current and power densities, which sheds light on the practical applicability of these new nanocomposites.
机译:据报道,一种新的基于碳纳米管/杂原子掺杂碳(CNT / HDC)芯鞘纳米结构的新型纳米复合材料的可行,可扩展的途径。通过将含杂原子的离子液体吸附在CNT壁上,然后进行碳化,可以制备这些纳米结构。 CNT / HDC复合材料的设计允许将CNT的电导率与含杂原子的HDC皮层的催化活性结合在一起。 CNT / HDC纳米结构是用于氧还原反应的高活性电催化剂,在半波电势和动电流密度方面,在杂原子掺杂的纳米碳催化剂中显示出最佳性能之一。 CNT / HDC纳米结构的四电子选择性和交换电流密度与Pt / C催化剂相当,并且CNT / HDC复合材料的长期耐久性和毒害耐受性优于Pt / C。此外,采用CNT / HDC纳米结构作为阴极催化剂的碱性燃料电池显示出非常高的电流和功率密度,这为这些新型纳米复合材料的实际应用提供了启示。

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