Abstract:
This paper reports on the influence of junction geometry on the determination of the rectification performance of nanostructured titanium dioxide (TiO 2 )-based p-n homojunctions. Two types of p-n junction devices with different junction area/geometry were fabricated. Sol-gel grown undoped TiO 2 nanoparticle layer was employed as the p-type side in both the cases. Electrochemically grown TiO 2 nanotube array was used as the n-type side in one junction, while thermally grown n-TiO 2 thin film was used in another. It was found that, due to unique advantage of excessively large junction area, p-TiO 2 /n-TiO 2 nanotube device offered a dramatically improved ideality factor (4) and a rectification factor (1093) compared with its p-TiO 2 /n-TiO 2 (thermally grown) counterpart (17 and 34, respectively). The 2-D distribution probability of the depletion region in the case of the first device was empirically correlated with the experimental findings and was supported by the corresponding C-V measurement results.