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ZnO mirorods are synthesized using the vapor phase transport method, and the magnetron sputtering is used to decorate the Al nanoparticles(NPs) on a single ZnO microrod. The micro-PL and I-V responses are measured before and after the decoration of Al NPs. The FDTD stimulation is also carried out to demonstrate the optical field distribution around the decoration of Al NPs on the surface of a ZnO microrod. Due to an implementation of Al NPs, the ZnO microrod exhibits an improved photoresponse behavior. In addition, Al NPs induced localized surface plasmons(LSPs) as well as improved optical field confinement can be ascribed to an enhancement of ultraviolet(UV) response. This research provides a method for improving the responsivity of photodetectors.
ZnO mirorods are synthesized using the vapor phase transport method, and the magnetron sputtering is used to decorate the Al nanoparticles (NPs) on a single ZnO microrod. The micro-PL and IV responses are measured before and after the decoration of Al NPs. The FDTD stimulation is also carrying out to demonstrate the optical field distribution around the decoration of Al NPs on the surface of a ZnO microrod. Due to an implementation of Al NPs, the ZnO microrod exhibits an improved photoresponse behavior. This research provides a method for improving the responsivity of photodetectors.