Shaping the Emission Spectral Profile of Quantum Dots with Periodic Dielectric and Metallic Nanostructures

The emission profi le and lifetime dynamics of semiconductor quantum dots can be signifi cantly shaped and altered using dielectric and plasmonic nanostructures based on anodic aluminum oxide templates. Remarkable spectral modifi cation and a large total decay rate enhancement in the photoluminescence of quantum dots are observed when they are deposited on a pristine anodic aluminum oxide template. The modifi ed emission spectral profi le is consistent with the calculated photonic local density of states above the anodic aluminum oxide template surface, suggesting that this interesting spectral tuning phenomenon stems from the surface electromagnetic modes supported by the anodic aluminum oxide template. Furthermore, when the anodic aluminum oxide template is loaded with metallic nanowires that sustain plasmon resonances, the photoluminescence of the quantum dots can be largely enhanced. These unprecedented results suggest that the anodic aluminum oxide template can be used as a versatile platform for tailoring the photoluminescence properties of quantum emitters in future photonic and optoelectronic applications.