The surface plasmon (SP) resonance behaviors of Ag nanoparticles (NPs) surrounded by other metals and the SP coupling effects with InGaN/GaN quantum wells (QWs) below the metal nanostructures are demonstrated. Theoretically, SP resonance cannot occur at the interface between two different metals. However, in our study, significant SP resonance behaviors can be observed when Ag NPs are formed at the tops of Ti and Al films, covered by Ti and Al films, or sandwiched by Ti and/or Al films. The effects of SP coupling with the QWs, which emit light at the wavelengths close to SP resonance peaks, are also illustrated. The increase of internal quantum efficiency and the decrease of photoluminescence decay time of the QWs confirm the strong SP coupling effects. The SP resonance behaviors at the Ag NPs partly or completely surrounded by other metals are attributed to the formation of an oxidized thin layer between Ag and other metals. In particular, TiOx and AlxOy can be easily formed at the interface for forming a dielectric interlayer. Based on simulation studies, such a dielectric interlayer can result in significant SP resonance although it becomes weaker.