Adsorptive parameters and influence of hot geometries on the SER(R) S spectra of methylene blue molecules adsorbed on gold nanocolloidal particles

The vibrational signatures of methylene blue (MB) dye molecule have been reported. Complete vibrational assignments of the molecule are presented for the first time. Concentration-dependent surface enhanced resonance Raman scattering [SER(R) S] spectra of the molecule have been investigated. Fluorescence spectroscopic technique has been applied to explore the concentration of the probe molecule actually adsorbed on the gold nanocolloidal (AuNC) surface. The free energy of adsorption and saturated concentration of MB molecules on AuNC surface are also estimated. Gigantic enhancements similar to 10(5)-10(13) orders of magnitude have been recorded for the enhanced Raman bands in the SER(R) S spectra. The possible orientation of the molecule on the AuNC surface and their probable protrusions within the hot spots have been suggested. The hot geometries and correlation between the plasmonic behavior of the nanoparticles and enhancement efficiencies of the SER(R) S band have been mapped with the aid of three-dimensional finite difference time domain (3D-FDTD) simulations. Application of soft lithographic technique to engineer the pattern formation of hetero dimeric spherical aggregates will be an interesting field of study in future to enhance the detection limit of this and similar types of dye molecules. Copyright (c) 2015 John Wiley & Sons, Ltd.