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Photon-driven charge transfer and Herzberg-Teller vibronic coupling mechanism in surface-enhanced Raman scattering of p-aminothiophenol adsorbed on coinage metal surfaces: A density functional theory study

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Photon-driven charge transfer and Herzberg-Teller vibronic coupling mechanis.htm (403bytes)
Date
2011-10-06
Author
Zhao, Liu-Bin
Huang, Rong
Huang, Yi-Fan
Wu, De-Yin
吴德印
Ren, Bin
任斌
Tian, Zhong-Qun
田中群
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  • 化学化工-已发表论文 [14469]
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Abstract
The chemical enhancement effects in surface-enhanced Raman scattering of p-aminothiophenol (PATP, it is also called p-mercaptoaniline or p-aminobenzenthiol) adsorbed on coinage metal surfaces with single thiol end or trapped into metal-molecule-metal junctions with both thiol and amino groups have been studied by density functional theory (DFT). We focus on the influence of photon-driven charge transfer (PDCT) and chemical bonding interaction (ground-state charge transfer) on the intensity enhancement and frequency shift in the surface Raman spectra of PATP. For comparison, the electronic structures and transitions of free PATP are studied first. The simulated pre-resonance UV Raman spectra illustrate that b(2) modes can be selectively enhanced via vibronic coupling. The fundamentals of all the b(2) modes in the frequency range of 1000 to 1650 cm(-1) are assigned in detail. For PATP adsorbed on coinage metals, the time-dependent-DFT calculations indicate that the low-lying CT excited state arises from the pi bonding orbital of molecule to the antibonding s orbital of metallic clusters. Our results further show that the PDCT resonance-like Raman scattering mechanism enhances the totally symmetric vibrational modes and the NH(2) wagging vibration. Finally, the effect of chemical bonding interaction is also investigated. The amino group binding to metals gives a characteristic band of the NH(2) wagging mode with the large blueshift frequency and an intense Raman signal. (C) 2011 American Institute of Physics. [doi:10.1063/1.3643766]
Citation
JOURNAL OF CHEMICAL PHYSICS,2011,135(13):134707
URI
http://dx.doi.org/doi:10.1063/1.3643766
https://dspace.xmu.edu.cn/handle/2288/11487
WOS:000295625400064

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