Publication | Closed Access
Fast Fabrication of a Ag Nanostructure Substrate Using the Femtosecond Laser for Broad-Band and Tunable Plasmonic Enhancement
68
Citations
53
References
2012
Year
Optical MaterialsEngineeringLaser ApplicationsOptical AbsorptionMetallic NanomaterialsOptical PropertiesMaterials FabricationAg Nanostructure SubstratePulsed Laser DepositionNanophotonicsPlasmonic MaterialMaterials ScienceNanotechnologyNanomanufacturingPhotonic MaterialsFemtosecond LaserLaser-assisted DepositionPlasmonicsFast FabricationApplied PhysicsNanofabricationThin FilmsLaser-surface Interactions
Using a femtosecond laser, we have transformed the laser-direct-writing technique into a highly efficient method that can process AgO(x) thin films into Ag nanostructures at a fast scanning rate of 2000 μm(2)/min. The processed AgO(x) thin films exhibit broad-band enhancement of optical absorption and effectively function as active SERS substrates. Probing of the plasmonic hotspots with dyed polymer beads indicates that these hotspots are uniformly distributed over the treated area.
| Year | Citations | |
|---|---|---|
Page 1
Page 1