直接合成高负载于碳载体上的金属间化合物铂合金纳米颗粒用于高效电催化

Direct Synthesis of Intermetallic Platinum-Alloy Nanoparticles Highly Loaded on Carbon Supports for Efficient Electrocatalysis.

作者信息

Yoo Tae Yong, Yoo Ji Mun, Sinha Arun Kumar, Bootharaju Megalamane S, Jung Euiyeon, Lee Hyeon Seok, Lee Byoung-Hoon, Kim Jiheon, Antink Wytse Hooch, Kim Yong Min, Lee Jongmin, Lee Eungjun, Lee Dong Wook, Cho Sung-Pyo, Yoo Sung Jong, Sung Yung-Eun, Hyeon Taeghwan

机构信息

Center for Nanoparticle Research, Institute for Basic Science (IBS), Seoul 08826, Republic of Korea.

School of Chemical and Biological Engineering and Institute of Chemical Processes, Seoul National University (SNU), Seoul 08826, Republic of Korea.

出版信息

J Am Chem Soc. 2020 Aug 19;142(33):14190-14200. doi: 10.1021/jacs.0c05140. Epub 2020 Aug 5.

DOI:10.1021/jacs.0c05140

PMID:32787259

Abstract

Compared to nanostructured platinum (Pt) catalysts, ordered Pt-based intermetallic nanoparticles supported on a carbon substrate exhibit much enhanced catalytic performance, especially in fuel cell electrocatalysis. However, direct synthesis of homogeneous intermetallic alloy nanocatalysts on carbonaceous supports with high loading is still challenging. Herein, we report a novel synthetic strategy to directly produce highly dispersed MPt alloy nanoparticles (M = Fe, Co, or Ni) on various carbon supports with high catalyst loading. Importantly, a unique bimetallic compound, composed of [M(bpy)] cation (bpy = 2,2'-bipyridine) and [PtCl] anion, evenly decomposes on carbon surface and forms uniformly sized intermetallic nanoparticles with a nitrogen-doped carbon protection layer. The excellent oxygen reduction reaction (ORR) activity and stability of the representative reduced graphene oxide (rGO)-supported L1-FePt catalyst (37 wt %-FePt/rGO), exhibiting 18.8 times higher specific activity than commercial Pt/C catalyst without degradation over 20 000 cycles, well demonstrate the effectiveness of our synthetic approach toward uniformly alloyed nanoparticles with high homogeneity.

摘要

与纳米结构的铂（Pt）催化剂相比，负载在碳基底上的有序Pt基金属间化合物纳米颗粒表现出显著增强的催化性能，尤其是在燃料电池电催化方面。然而，在高负载的碳质载体上直接合成均匀的金属间合金纳米催化剂仍然具有挑战性。在此，我们报告了一种新颖的合成策略，可在各种碳载体上直接制备具有高催化剂负载量的高度分散的MPt合金纳米颗粒（M = Fe、Co或Ni）。重要的是，一种由[M(bpy)]阳离子（bpy = 2,2'-联吡啶）和[PtCl]阴离子组成的独特双金属化合物在碳表面均匀分解，并形成具有氮掺杂碳保护层的尺寸均匀的金属间纳米颗粒。代表性的还原氧化石墨烯（rGO）负载的L1-FePt催化剂（37 wt%-FePt/rGO）具有出色的氧还原反应（ORR）活性和稳定性，其比活性比商业Pt/C催化剂高18.8倍，且在20000次循环中无降解，充分证明了我们合成方法对于制备具有高均匀性的均匀合金纳米颗粒的有效性。

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直接合成高负载于碳载体上的金属间化合物铂合金纳米颗粒用于高效电催化

Direct Synthesis of Intermetallic Platinum-Alloy Nanoparticles Highly Loaded on Carbon Supports for Efficient Electrocatalysis.

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