基于种子的核壳 FePtM/FePt（M = Pd，Au）纳米线的合成及其对氧还原反应的电催化作用。

Seed-mediated synthesis of core/shell FePtM/FePt (M = Pd, Au) nanowires and their electrocatalysis for oxygen reduction reaction.

机构信息

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

出版信息

J Am Chem Soc. 2013 Sep 18;135(37):13879-84. doi: 10.1021/ja406091p. Epub 2013 Sep 6.

Abstract

We report a new seed-mediated growth of FePt over 2.5 nm wide FePtM (M = Pd, Au) nanowires (NWs) into core/shell FePtM/FePt NWs with controlled FePt shell thickness from 0.3 to 1.3 nm. These FePtM/FePt NWs show shell thickness and core composition-dependent electrocatalytic activity for oxygen reduction reaction (ORR) in 0.1 M HClO4. These core/shell FePtM/FePt NWs are generally more active and durable than the corresponding alloy NWs. Among FePtM/FePt NWs, FePt NWs, FePtPd NWs, and commercial Pt studied, the FePtPd/FePt NWs (0.8 nm shell) show the specific activity of 3.47 mA·cm(-2) and the mass activity of 1.68 A/mg Pt at 0.5 V (vs. Ag/AgCl), superior to all other NWs (less than 1.59 mA/cm(2) and 0.82 A/mg Pt for FePtAu/FePt and FePt) as well as the commercial Pt (0.24 mA/cm(2) and 0.141 A/mg Pt). The FePtM/FePt (0.8 nm shell) NWs are also stable in the ORR condition and show no activity decrease after 5000 potential sweeps between 0.4 and 0.8 V (vs Ag/AgCl). They are the most efficient nanocatalyst ever reported for ORR.

摘要

我们报告了一种新的种子介导生长方法，可在 2.5nm 宽的 FePtM（M=Pd、Au）纳米线（NWs）上生长出厚度可控的 0.3-1.3nm 厚 FePt 壳的 FePtM/FePt NWs。这些 FePtM/FePt NWs 在 0.1M HClO4 中对氧还原反应（ORR）表现出与壳层厚度和核组成相关的电催化活性。这些核/壳层 FePtM/FePt NWs 通常比相应的合金 NWs 更具活性和耐久性。在 FePtM/FePt NWs、FePt NWs、FePtPd NWs 和商业 Pt 中，研究发现 0.8nm 壳层的 FePtPd/FePt NWs 的比活性为 3.47mA·cm-2，质量活性为 1.68A/mgPt 在 0.5V（相对于 Ag/AgCl），优于所有其他 NWs（FePtAu/FePt 和 FePt 的小于 1.59mA/cm2 和 0.82A/mgPt）以及商业 Pt（0.24mA/cm2 和 0.141A/mgPt）。在 ORR 条件下，FePtM/FePt（0.8nm 壳层）NWs 也很稳定，在 0.4 至 0.8V（相对于 Ag/AgCl）之间进行 5000 次电位扫描后，活性没有下降。它们是迄今为止报道的用于 ORR 的最有效的纳米催化剂。

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基于种子的核壳 FePtM/FePt（M = Pd，Au）纳米线的合成及其对氧还原反应的电催化作用。

Seed-mediated synthesis of core/shell FePtM/FePt (M = Pd, Au) nanowires and their electrocatalysis for oxygen reduction reaction.

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