[email protected]2 Core Shell Nanorod Arrays with Tailored Structural, Electrical, and Optical Properties for Photovoltaic Application

ZnO has prominent electron transport and optical properties, beneficial for photovoltaic application, but its surface is prone to the formation of defects. To overcome this problem, we deposited nanostructured TiO 2 thin film on ZnO nanorods to form a stable shell. ZnO nanorods synthesized by wet-chemistry are single crystals. Three different procedures for deposition of TiO 2 were applied. The influence of preparation methods and parameters on the structure, morphology, electrical and optical properties were studied. Nanostructured TiO 2 shells show different morphologies dependent on deposition methods: (1) separated nanoparticles (by pulsed laser deposition (PLD) in Ar), (2) a layer with nonhomogeneous thickness (by PLD in vacuum or DC reactive magnetron sputtering), and (3) a homogenous thin layer along the nanorods (by chemical deposition). Based on the structural study, we chose the preparation parameters to obtain an anatase structure of the TiO 2 shell. Impedance spectroscopy shows pure electron conductivity that was considerably better in all the [email protected] 2 than in bare ZnO nanorods or TiO 2 layers. The best conductivity among the studied samples and the lowest activation energy was observed for the sample with a chemically deposited TiO 2 shell. Higher transparency in the visible part of spectrum was achieved for the sample with a homogenous TiO 2 layer along the nanorods, then in the samples with a layer of varying thickness. View Full-Tex