Distinguishing chemical and electromagnetic enhancement in surface‐enhanced Raman spectra: The case of para‐nitrothiophenol

Abstract: Surface‐enhanced Raman spectra are simulated using a combined classical electrodynamics/real‐time time‐dependent density functional theory approach and compared to experiments. Emphasis is put on discerning between chemical and electromagnetic enhancement. Therefore, three different calculation scenarios are investigated using para‐nitrothiophenol as a test molecule. In the first one, corresponding to electromagnetic enhancement, we simulate the molecule alone with ab initio computations incorporating the elec… Show more

“…Such a high value was due to the resonance effect. Chemical enhancement of para-nitrothiophenol (p-NTP) and Ag sphere was modeled with ab-initio computations with scenarios (a) that incorporated the electromagnetic field emitted by nanoparticle, (b) both metal and molecule atoms were considered, (c) both of the above scenarios are taken together [22]. The results found to be in accordance with SERS experimental work.…”

Tip-enhanced Raman scattering—Targeting structure-specific surface characterization for biomedical samples

“…Such a high value was due to the resonance effect. Chemical enhancement of para-nitrothiophenol (p-NTP) and Ag sphere was modeled with ab-initio computations with scenarios (a) that incorporated the electromagnetic field emitted by nanoparticle, (b) both metal and molecule atoms were considered, (c) both of the above scenarios are taken together [22]. The results found to be in accordance with SERS experimental work.…”

Tip-enhanced Raman scattering—Targeting structure-specific surface characterization for biomedical samples

“…While the electromagnetic component describes the characteristics of the substrate, the chemical contribution is related to molecular binding. Thomas et al [19] have also performed theoretical and experimental studies to distinguish EM and CE effects of p-nitrothiophenol adsorbed on the Ag surface. In their approach, classical electrodynamics was coupled with quantum chemistry to include nanoparticle plasmon fields in the calculation of molecular optical properties.…”

SERS and DFT investigation of the adsorption behavior of 4-mercaptobenzoic acid on silver colloids

“…The best known techniques based on plasmonic enhancement are surface and tip-enhanced Raman scattering (SERS and TERS, respectively) [16][17][18] as well as tip enhanced infrared absorption (TEIRA). 19,20 Signal enhancements observed in these techniques can be rationalized by two phenomena: the electromagnetic effect 8,[21][22][23][24][25][26][27][28] and the chemical effect. 8,9,[29][30][31][32] The former corresponds to the creation of a locally confined strong electric field by an incident light source, i.e.…”

“…8,9,33,34 These three contributions can lead to changes in the shape, spectral position and intensity of Raman bands due to changes in the local environment of the substrate under investigation. 22 Interestingly, several recent TERS experiments have strongly indicated spatial resolutions of 1 nm or smaller (i.e., single molecule resolution). [35][36][37][38][39][40][41] Such high resolutions are unexpected considering the dimensions of the commonly used plasmonic nanoparticles.…”

Spatial resolution of tip-enhanced Raman spectroscopy – DFT assessment of the chemical effect