posted on 2016-04-04, 00:00authored byJingjing Qiu, Nathaniel E. Richey, Joseph S. DuChene, Yueming Zhai, Yunlu Zhang, Lisa McElwee-White, Wei David Wei
The photothermal
heating of plasmonic metal nanostructures can
be exploited for bottom-up nanofabrication via surface plasmon-mediated
chemical solution deposition (SPMCSD). Herein, we demonstrate the
versatility of this plasmon-mediated strategy with a rapid deposition
(t ≈ 5 min) of metallic copper nanoparticles
(Cu NPs) on a silver (Ag) film on nanosphere (AgFON) substrate under
low-power, visible-light irradiation (I0 = 2.0 W/cm2, λ > 435 nm). The resultant plasmonic
nanostructures exhibit significant optical extinction and enriched
chemical affinity for Raman probe molecules, rendering the hybrid
AgFON/Cu substrate a suitable plasmonic platform for chemical sensing
via surface-enhanced Raman scattering (SERS).