直径可在10至100纳米之间调节的单分散铂纳米球：合成及独特光学性质

Monodisperse platinum nanospheres with adjustable diameters from 10 to 100 nm: synthesis and distinct optical properties.

作者信息

Bigall Nadja C, Härtling Thomas, Klose Markus, Simon Paul, Eng Lukas M, Eychmüller Alexander

机构信息

Institut für Physikalische Chemie und Elektrochemie, TU Dresden, Bergstr. 66 b, 01062 Dresden, Germany.

出版信息

Nano Lett. 2008 Dec;8(12):4588-92. doi: 10.1021/nl802901t.

DOI:10.1021/nl802901t

PMID:19367978

Abstract

We present a facile and reproducible method for synthesizing monodisperse platinum (Pt) spheres with sizes ranging from 10 to 100 nm in diameter and exceptionally small standard deviations of 3% for large spheres. The reaction takes place in aqueous solution using a multistep seed-mediated approach. The Pt nanospheres consist of several small crystallites resulting in a surface roughness of 5-10 nm. Extinction spectra are measured from particles dispersed in water and calculated for single particles which are found to be in excellent agreement. We obtain a linear correlation between the plasmon extinction maximum (from UV to the visible regions) and the particle diameter which might be of value for experimentalists in the field.

摘要

我们提出了一种简便且可重复的方法，用于合成直径在10至100纳米范围内的单分散铂（Pt）球，对于大尺寸球体，其标准偏差异常小，仅为3%。该反应在水溶液中采用多步种子介导法进行。铂纳米球由几个小晶粒组成，导致表面粗糙度为5 - 10纳米。测量了分散在水中的颗粒的消光光谱，并计算了单个颗粒的消光光谱，发现两者高度吻合。我们获得了等离子体消光最大值（从紫外到可见光区域）与颗粒直径之间的线性相关性，这可能对该领域的实验人员有价值。

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直径可在10至100纳米之间调节的单分散铂纳米球：合成及独特光学性质

Monodisperse platinum nanospheres with adjustable diameters from 10 to 100 nm: synthesis and distinct optical properties.

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