Charge-Transfer Enhancement Involved in the SERS of Adenine on Rh and Pd Demonstrated by Ultraviolet to Visible Laser Excitation

Abstract: In an attempt to understand the single-molecule SERS of some small nonresonant molecules, such as adenine, it is inevitable to include the chemical enhancement mechanism to provide additional enhancement to the electromagnetic mechanism, although it may be much smaller than the electromagnetic field enhancement. We will report here the first experimental investigation of the charge-transfer (CT) enhancement of protonated adenine molecules on Rh and Pd by performing the potential-dependent SERS using one UV las… Show more

“…All complexes are formed by linkage of Ag atoms to nitrogen atoms in a side-on orientation, which implies that adenine prefers to adopt an end-on adsorption mode on silver nanoparticles. As reported by many experimental and computational studies, [9,12,18,19] Figure 2 shows that adenine is bound to the cluster through N1, N3, or N7 in an upright orientation for the S complexes (a, b, c, and e), in a slightly tilted orientation for the V complexes (a1, b1, c1, and e1), and in an orientation perpendicular to one edge for the E complexes (a2, b2, c2, and e2). Furthermore, adenine could be adsorbed on the silver cluster through the external amino group in complex f1, which is a model of flat-on adsorption on silver surfaces.…”

A DFT Investigation of Surface‐Enhanced Raman Scattering of Adenine and 2′‐Deoxyadenosine 5′‐Monophosphate on Ag₂₀ Nanoclusters

“…All complexes are formed by linkage of Ag atoms to nitrogen atoms in a side-on orientation, which implies that adenine prefers to adopt an end-on adsorption mode on silver nanoparticles. As reported by many experimental and computational studies, [9,12,18,19] Figure 2 shows that adenine is bound to the cluster through N1, N3, or N7 in an upright orientation for the S complexes (a, b, c, and e), in a slightly tilted orientation for the V complexes (a1, b1, c1, and e1), and in an orientation perpendicular to one edge for the E complexes (a2, b2, c2, and e2). Furthermore, adenine could be adsorbed on the silver cluster through the external amino group in complex f1, which is a model of flat-on adsorption on silver surfaces.…”

A DFT Investigation of Surface‐Enhanced Raman Scattering of Adenine and 2′‐Deoxyadenosine 5′‐Monophosphate on Ag₂₀ Nanoclusters

“…Despite extensive experimental and theoretical efforts [10][11][12][13][14][15][16], its microscopic mechanism and relative importance are still not completely understood, and there are many questions that remain unanswered thus far, such as the precise geometries of the junctions and the molecular orientations [17].…”

Raman spectral study of metal–cytosine complexes: A density functional theoretical (DFT) approach

“…(26) are yet to be projected. From all possible projections we are interested only in the rates, i.e.…”

“…(24) is already of the second order in the coupling to the outgoing photon (through the corresponding self-energy), thus the two-particle Green function (25) should be written to second order in both the coupling to the incoming photon and to the molecular vibration. The required expression is obtained in a standard way expanding the contour evolution operator in the interaction representation to fourth (26), is given (cf. Eqs.…”

Raman scattering from molecular conduction junctions: Charge transfer mechanism