Tailoring defect structure and optical absorption of porous anodic aluminum oxide membranes

Defects influence the optical and electronic properties of nanostructured materials that may be relevant for applications. In self-organized anodic aluminum oxide (AAO) templates we have investigated the effect of annealing, doping and nanoscale metal deposition. Optical absorption spectroscopy has been used as a sensitive probe for the defect density in AAO templates. The electronic spectra are found to be dominated by bands which originate from oxygen-deficient color centers (F+, F and F2). In annealing studies, the integrated absorption of the bands changes non-monotonically with annealing temperature and annealing time. This demonstrates that the concentration of defects can be optimized to tailor the optical properties of the AAO. Metallic Au wires are deposited in the template to establish a plasmonic template or array. The investigations provide an interesting insight into the interplay of reactivity and diffusivity on nanoscales.

► Preparation of metal wire arrays in oxide templates with tailored plasmonic properties.
► Oxygen defects are characterized using optical absorption and fluorescence.
► Optical absorption spectra are assigned to energy levels of oxygen vacancies (color centers).
► Annealing and electrodeposition of Au wires minimize defects maintaining the morphology.