通过在 Pt@Ni 核壳纳米晶体中进行几何精确的纳米尺度相分离，得到具有笛卡尔坐标的骨架八面体纳米框架。

Skeletal octahedral nanoframe with Cartesian coordinates via geometrically precise nanoscale phase segregation in a Pt@Ni core-shell nanocrystal.

机构信息

§Korea Basic Science Institute (KBSI), Seoul 136-713, Republic of Korea.

⊥Graduate School of Energy Environment Water and Sustainability (EEWS), Korea Advanced Institute of Science and Technology (KAIST), Daejeon 305-701, Republic of Korea.

出版信息

ACS Nano. 2015 Mar 24;9(3):2856-67. doi: 10.1021/nn5068539. Epub 2015 Mar 5.

DOI:10.1021/nn5068539

PMID:25734892

Abstract

Catalytic properties of nanoparticles can be significantly enhanced by controlling nanoscale alloying and its structure. In this work, by using a facet-controlled Pt@Ni core-shell octahedron nanoparticle, we show that the nanoscale phase segregation can have directionality and be geometrically controlled to produce a Ni octahedron that is penetrated by Pt atoms along three orthogonal Cartesian axes and is coated by Pt atoms along its edges. This peculiar anisotropic diffusion of Pt core atoms along the ⟨100⟩ vertex, and then toward the ⟨110⟩ edges, is explained via the minimum strain energy for Ni-Ni pair interactions. The selective removal of the Ni-rich phase by etching then results in structurally fortified Pt-rich skeletal PtNi alloy framework nanostructures. Electrochemical evaluation of this hollow nanoframe suggests that the oxygen reduction reaction (ORR) activity is greatly improved compared to conventional Pt catalysts.

摘要

通过控制纳米尺度的合金化及其结构，纳米粒子的催化性能可以得到显著增强。在这项工作中，我们使用了一种具有面控制的 Pt@Ni 核壳八面体纳米粒子，表明纳米尺度的相分离具有方向性和几何可控性，可以生成一个 Ni 八面体，其中 Pt 原子沿着三个正交笛卡尔轴贯穿，沿着边缘被 Pt 原子覆盖。通过 Ni-Ni 对相互作用的最小应变能，可以解释 Pt 核原子沿着 ⟨100⟩顶点、然后向 ⟨110⟩边缘的这种特殊各向异性扩散。通过刻蚀选择性地去除富 Ni 相，然后得到结构强化的富 Pt 骨架 PtNi 合金框架纳米结构。对这种空心纳米框架的电化学评估表明，与传统的 Pt 催化剂相比，其氧还原反应（ORR）活性得到了极大的提高。

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通过在 Pt@Ni 核壳纳米晶体中进行几何精确的纳米尺度相分离，得到具有笛卡尔坐标的骨架八面体纳米框架。

Skeletal octahedral nanoframe with Cartesian coordinates via geometrically precise nanoscale phase segregation in a Pt@Ni core-shell nanocrystal.

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