固有应变的超小十面体金纳米粒子的催化性能的结构起源。

On the structural origin of the catalytic properties of inherently strained ultrasmall decahedral gold nanoparticles.

机构信息

Departments of Physics, University of York, The York JEOL Nanocentre, York, YO10 5DD, United Kingdom.

出版信息

Nano Lett. 2012 Apr 11;12(4):2027-31. doi: 10.1021/nl300067q. Epub 2012 Mar 9.

Abstract

A new mechanism for reactivity of multiply twinned gold nanoparticles resulting from their inherently strained structure provides a further explanation of the surprising catalytic activity of small gold nanoparticles. Atomic defect structural studies of surface strains and quantitative analysis of atomic column displacements in the decahedral structure observed by aberration corrected transmission electron microscopy reveal an average expansion of surface nearest neighbor distances of 5.6%, with many strained by more than 10%. Density functional theory calculations of the resulting modified gold d-band states predict significantly enhanced activity for carbon monoxide oxidation. The new insights have important implications for the applications of nanoparticles in chemical process technology, including for heterogeneous catalysis.

摘要

多孪金纳米粒子由于其固有应变结构而具有的反应活性的新机制，进一步解释了小尺寸金纳米粒子令人惊讶的催化活性。用像差校正的透射电子显微镜对表面应变的原子缺陷结构研究和对十面体结构中原子列位移的定量分析表明，表面最近邻距离平均扩展了 5.6%，其中许多的应变程度超过了 10%。对由此产生的金 d 带态的修正的密度泛函理论计算预测，对一氧化碳氧化的活性有显著提高。这一新的认识对于纳米粒子在化学过程技术中的应用具有重要意义，包括多相催化。

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固有应变的超小十面体金纳米粒子的催化性能的结构起源。

On the structural origin of the catalytic properties of inherently strained ultrasmall decahedral gold nanoparticles.

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