With Ag nanowires (NWs) overlaid onto a GaN template, the localized surface plasmon (LSP) resonance wavelength of subsequently deposited Ag nanoparticles (NPs) becomes significantly shorter, when compared with that in the case without Ag NW overlay. The latter is generally longer than 500 nm while the former falls into the blue range, around 450 nm. It is speculated that this behavior is caused by the settlement of polyvinylpyrrolidone (PVP), which is the surfactant used for synthesizing Ag NW and remains on the surface of an Ag NW. PVP is dissolved in the Ag NW solution and is applied to GaN surface together with Ag NWs. The PVP layer forms a narrow gap between Ag NPs and GaN and leads to the blue shift of the LSP resonance of Ag NPs. Measurements of internal quantum efficiency and photoluminescence decay time in a quantum-well (QW) structure show that this blue-shift behavior can further enhance the emission efficiency of a QW at 450 nm. This phenomenon is applied to the fabrication of a blue light-emitting diode using Ag NWs as transparent conductor.