Surface-plasmon enhanced Raman scattering of DNA molecules on regular arrays of modified gold nanoparticles
CLEO) and Quantum Electronics and Laser Science Conference(2010)
Abstract
We performed surface-plasmon enhanced Raman scattering (SERS) studies of a DNA monolayer on chemically modified Au nanoparticle arrays. Drastic enhancement of Raman signal from DNA molecules was observed on the optimized templates that were prepared by using electron-beam lithography followed by chemical modification. We observed that Raman signal of DNA molecules was enhanced when the surface plasmons in the closely-spaced Au nanoparticles were resonantly excited. Our results suggest that the artificial generation of spatially controlled hot spots for SERS can be achieved by this technique.
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Key words
electron beam lithography,optical scattering,chemical processes,surface plasmon,plasmons,surface plasmons,lithography,nanoparticles,resonance,chemicals,dna,monolayers,plasmonics,gold,chemical modification,raman scattering,hot spot
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