电场梯度对针尖增强拉曼光谱亚纳米空间分辨率的影响。

Effect of electric field gradient on sub-nanometer spatial resolution of tip-enhanced Raman spectroscopy.

作者信息

Meng Lingyan, Yang Zhilin, Chen Jianing, Sun Mengtao

机构信息

1] Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing. 100190, China [2] Department of Physics, Xiamen University, Xiamen. 361005, China.

Department of Physics, Xiamen University, Xiamen. 361005, China.

出版信息

Sci Rep. 2015 Mar 18;5:9240. doi: 10.1038/srep09240.

DOI:10.1038/srep09240

PMID:25784161

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4363867/

Abstract

Tip-enhanced Raman spectroscopy (TERS) with sub-nanometer spatial resolution has been recently demonstrated experimentally. However, the physical mechanism underlying is still under discussion. Here we theoretically investigate the electric field gradient of a coupled tip-substrate system. Our calculations suggest that the ultra-high spatial resolution of TERS can be partially attributed to the electric field gradient effect owning to its tighter spatial confinement and sensitivity to the infrared (IR)-active of molecules. Particularly, in the case of TERS of flat-lying H₂TBPP molecules,we find the electric field gradient enhancement is the dominating factor for the high spatial resolution, which qualitatively coincides with previous experimental report. Our theoretical study offers a new paradigm for understanding the mechanisms of the ultra-high spatial resolution demonstrated in tip-enhanced spectroscopy which is of importance but neglected.

摘要

具有亚纳米空间分辨率的针尖增强拉曼光谱（TERS）最近已通过实验得到证实。然而，其背后的物理机制仍在讨论之中。在此，我们从理论上研究了耦合针尖 - 基底系统的电场梯度。我们的计算表明，TERS的超高空间分辨率可部分归因于电场梯度效应，这是由于其更紧密的空间限制以及对分子红外（IR）活性的敏感性。特别是，在平躺的H₂TBPP分子的TERS情况中，我们发现电场梯度增强是高空间分辨率的主导因素，这在定性上与先前的实验报告一致。我们的理论研究为理解针尖增强光谱中所展示的超高空间分辨率机制提供了一个新的范例，这一机制很重要但被忽视了。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3d7f/4363867/adf9d719067a/srep09240-f1.jpg

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电场梯度对针尖增强拉曼光谱亚纳米空间分辨率的影响。

Effect of electric field gradient on sub-nanometer spatial resolution of tip-enhanced Raman spectroscopy.

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