The chemical effect goes resonant -- a full quantum mechanical approach on TERS

• URL: http://arxiv.org/abs/2106.11065v1
• Date: Mon, 21 Jun 2021 12:53:08 GMT
• Title: The chemical effect goes resonant -- a full quantum mechanical approach on TERS
• Authors: Kevin Fiederling, Mostafa Abasifard, Martin Richter, Volker Deckert, Stefanie Gr\"afe, Stephan Kupfer
• Abstract summary: Experimental evidence of unexpectedly high spatial resolution of tip-enhanced Raman scattering (TERS) has been demonstrated. We consider a surface-immobilized tin(II) phthalocyanine molecule as the molecular system, which is minutely scanned by a plasmonic tip. Our computational approach reveals that unique - non-resonant and resonant - chemical interactions among the tip and the molecule significantly alter the TERS spectra.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Lately, experimental evidence of unexpectedly extremely high spatial resolution of tip-enhanced Raman scattering (TERS) has been demonstrated. Theoretically, two different contributions are discussed: an electromagnetic effect, leading to a spatially confined near field due to plasmonic excitations; and the so-called chemical effect originating from the locally modified electronic structure of the molecule due to the close proximity of the plasmonic system. Most of the theoretical efforts have concentrated on the electromagnetic contribution or the chemical effect in case of non-resonant excitation. In this work, we present a fully quantum mechanical description including non-resonant and resonant chemical contributions as well as charge-transfer phenomena of these molecular-plasmonic hybrid system at the density functional and the time-dependent density functional level of theory. We consider a surface-immobilized tin(II) phthalocyanine molecule as the molecular system, which is minutely scanned by a plasmonic tip, modeled by a single silver atom. These different relative positions of the Ag atom to the molecule lead to pronounced alterations of the Raman spectra. These Raman spectra vary substantially, both in peak positions and several orders of magnitude in the intensity patterns under non-resonant and resonant conditions, and also, depending on, which electronic states are addressed. Our computational approach reveals that unique - non-resonant and resonant - chemical interactions among the tip and the molecule significantly alter the TERS spectra and are mainly responsible for the high, possibly sub-Angstrom spatial resolution.

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