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原位观察单 Au 三角纳米棱镜刻蚀为各种形状的等离子体光催化产氢。

In Situ Observation of Single Au Triangular Nanoprism Etching to Various Shapes for Plasmonic Photocatalytic Hydrogen Generation.

机构信息

The Institute of Scientific and Industrial Research (SANKEN), Osaka University , Mihogaoka 8-1, Ibaraki Osaka 567-0047, Japan.

出版信息

ACS Nano. 2017 Jan 24;11(1):968-974. doi: 10.1021/acsnano.6b07581. Epub 2016 Dec 28.

Abstract

In situ etching of single Au triangular nanoprism (TNP) was successfully monitored by the plasmonic photoluminescence (PL) spectra using single-particle microscopy, which provides clear results to understand the geometric and anisotropic dependence of surface plasmon resonance in Au nanostructures. Various Au nanostructures (TNP, obtuse TNP (O-TNP) and nanodisk) were obtained to synthesize anisotropic Pt-Au as plasmonic photocatalyts for hydrogen generation. Single-particle PL spectra and finite-difference time-domain simulations demonstrate that the Pt-edged Au O-TNP has larger tip area and higher plasmon enhanced electrical field for hot electron transfer and charge separation, leading to more efficient photocatalytic hydrogen generation.

摘要

利用单粒子显微镜成功地监测了单个 Au 三角纳米棱镜(TNP)的原位刻蚀,其等离子体光致发光(PL)谱提供了清晰的结果,以了解 Au 纳米结构中表面等离子体共振的几何和各向异性依赖性。为了合成各向异性的 Pt-Au 作为等离子体光催化剂用于产氢,获得了各种 Au 纳米结构(TNP、钝角 TNP(O-TNP)和纳米盘)。单粒子 PL 光谱和有限差分时域模拟表明,Pt 边缘的 Au O-TNP 具有更大的尖端面积和更高的等离子体增强电场,有利于热电子转移和电荷分离,从而更有效地进行光催化产氢。

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