Nanospectroscopy of thiacyanine dye molecules adsorbed on silvernanoparticle clusters
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Date
2017-10-25Authors
Ralević, Uroš
Isić, Goran
Vasić-Anićijević, Dragana
Laban, Bojana
Bogdanović, Una
Lazović, Vladimir
Vodnik, Vesna
Gajić, Radoš
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The adsorption of thiacyanine dye molecules on citrate-stabilized silver nanoparticle clusters drop-cast onto freshly cleaved mica or highly oriented pyrolytic graphite surfaces is examined using colocalized surface-enhanced Raman spectroscopy and atomic force microscopy. The incidence of dye Raman sig-natures in photoluminescence hotspots identified around nanoparticle clusters is considered for both citrate- and borate- capped silver nanoparticles and found to be substantially lower in the former case, suggesting that the citrate anions impede the efficient dye adsorption. Rigorous numerical simulationsof light scattering on random nanoparticle clusters are used for estimating the electromagnetic enhancement and elucidating the hotspot formation mechanism. The majority of the enhanced Raman signal,estimated to be more than 90%, is found to originate from the nanogaps between adjacent nanoparticles in the cluster, regardless of the cluster size and geometry.
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