核壳结构的 Au/CuPt 纳米粒子及其对还原和氧化反应的双电催化作用。

Core/shell Au/CuPt nanoparticles and their dual electrocatalysis for both reduction and oxidation reactions.

机构信息

Department of Chemistry, Brown University , Providence, Rhode Island 02912, United States.

出版信息

J Am Chem Soc. 2014 Apr 16;136(15):5745-9. doi: 10.1021/ja500590n. Epub 2014 Apr 1.

Abstract

We report a facile synthesis of monodisperse core/shell 5/1.5 nm Au/CuPt nanoparticles by coreduction of platinum acetylacetonate and copper acetylacetonate in the presence of 5 nm Au nanoparticles. The CuPt alloy effect and core/shell interactions make these Au/CuPt nanoparticles a promising catalyst for both oxygen reduction reaction and methanol oxidation reaction in 0.1 M HClO4 solution. Their specific (mass) reduction and oxidation activities reach 2.72 mA/cm(2) (1500 mA/mg Pt) at 0.9 V and 0.755 mA/cm(2) (441 mA/mg Pt) at 0.8 V (vs reversible hydrogen electrode), respectively. Our studies show that the existence of the Au nanoparticle core not only minimizes the Pt usage but also improves the stability of the Au/CuPt catalyst for fuel cell reactions. The results suggest that the core/shell design is indeed effective for optimizing nanoparticle catalysis. The same concept may be extended to other multimetallic nanoparticle systems, making it possible to tune nanoparticle catalysis for many different chemical reactions.

摘要

我们报告了一种通过在 5nmAu 纳米粒子存在下还原铂乙酰丙酮酸盐和铜乙酰丙酮酸盐来制备单分散核/壳 5/1.5nmAu/CuPt 纳米粒子的简便方法。CuPt 合金效应和核/壳相互作用使这些 Au/CuPt 纳米粒子成为在 0.1M HClO4 溶液中氧还原反应和甲醇氧化反应的一种很有前途的催化剂。它们在 0.9V 时的比（质量）还原和氧化活性分别达到 2.72mA/cm2（1500mA/mgPt）和 0.755mA/cm2（441mA/mgPt）（相对于可逆氢电极）。我们的研究表明，Au 纳米核的存在不仅最小化了 Pt 的使用量，而且提高了 Au/CuPt 催化剂在燃料电池反应中的稳定性。结果表明，核/壳设计确实有效地优化了纳米粒子的催化作用。这一概念同样可以扩展到其他多金属纳米粒子系统，从而有可能为许多不同的化学反应调整纳米粒子的催化作用。

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核壳结构的 Au/CuPt 纳米粒子及其对还原和氧化反应的双电催化作用。

Core/shell Au/CuPt nanoparticles and their dual electrocatalysis for both reduction and oxidation reactions.

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