Pt-Co@Pt 八面体纳米晶：通过金属间核和超薄壳提高其对氧还原的活性和耐久性。

Pt-Co@Pt Octahedral Nanocrystals: Enhancing Their Activity and Durability toward Oxygen Reduction with an Intermetallic Core and an Ultrathin Shell.

机构信息

School of Chemistry and Biochemistry, Georgia Institute of Technology, Atlanta, Georgia 30332, United States.

The Wallace H. Coulter Department of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, Georgia 30332, United States.

出版信息

J Am Chem Soc. 2021 Jun 9;143(22):8509-8518. doi: 10.1021/jacs.1c04160. Epub 2021 May 27.

DOI:10.1021/jacs.1c04160

PMID:34043340

Abstract

Despite extensive efforts devoted to the synthesis of Pt-Co bimetallic nanocrystals for fuel cell and related applications, it remains a challenge to simultaneously control atomic arrangements in the bulk and on the surface. Here we report a synthesis of Pt-Co@Pt octahedral nanocrystals that feature an intermetallic, face-centered tetragonal Pt-Co core and an ultrathin Pt shell, together with the dominance of {111} facets on the surface. When evaluated as a catalyst toward the oxygen reduction reaction (ORR), the nanocrystals delivered a mass activity of 2.82 A mg and a specific activity of 9.16 mA cm, which were enhanced by 13.4 and 29.5 times, respectively, relative to the values of a commercial Pt/C catalyst. More significantly, the mass activity of the nanocrystals only dropped 21% after undergoing 30 000 cycles of accelerated durability test, promising an outstanding catalyst with optimal performance for ORR and related reactions.

摘要

尽管人们为合成用于燃料电池和相关应用的 Pt-Co 双金属纳米晶体付出了广泛的努力，但同时控制体相和表面的原子排列仍然是一个挑战。在这里，我们报告了一种 Pt-Co@Pt 八面体纳米晶体的合成方法，该纳米晶体具有面心四方的 Pt-Co 金属间化合物核和超薄的 Pt 壳，同时表面主要呈现{111}面。当将纳米晶体作为催化剂用于氧还原反应（ORR）时，其质量活性为 2.82 A mg，比商业 Pt/C 催化剂的相应值分别提高了 13.4 和 29.5 倍。更重要的是，纳米晶体在经过 30000 次加速耐久性测试循环后，其质量活性仅下降了 21%，这表明该纳米晶体具有出色的 ORR 和相关反应性能的催化剂。

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Pt-Co@Pt 八面体纳米晶：通过金属间核和超薄壳提高其对氧还原的活性和耐久性。

Pt-Co@Pt Octahedral Nanocrystals: Enhancing Their Activity and Durability toward Oxygen Reduction with an Intermetallic Core and an Ultrathin Shell.

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