Efficient gradient heating-up approach for rapid growth of high-quality amorphous ZrO2 dielectric films

Abstract High-k oxide dielectric films are indispensable for low-power-consumption oxide thin-film transistors (TFTs) applied in advanced and portable electronics. However, high-quality oxide dielectric films prepared by solution process typically require sophisticated processes and long thermal annealing time, severely limiting both the throughput manufacturing and cost-effectiveness. In this study, the influence of different heating-up methods on the surface morphology and dielectric properties was systematically investigated. Gradient heating-up method could not only substantially improve the surface morphology and quality of high-k ZrO 2 films but also efficiently shorten the annealing time. The gradient heating-up process was further designed on the basis of thermal behavior of the xerogel-like precursor, which successfully realize the preparation of high-quality ZrO 2 films with an annealing time of 5 min (i.e. the efficiency of thermal treatment increased by about 89%). The ZrO 2 film presented excellent dielectric properties, including a low leakage current density of ∼10 −8 A cm −2 (at 2 MV cm −1 ), a large areal capacitance of 169 nF cm −2 and a high dielectric constant of 20.41 (1 MHz). Furthermore, InSnZnO TFT based on the ZrO 2 gate dielectrics shows an acceptable device performances, such as a high carrier mobility of 2.82 cm 2 V −1 s, a high on/off current ratio of ∼10 5 and a low subthreshold swing of 0.19 V decade −1 at a low operation voltage of 5 V. This work provide a highly promising approach to fabricate high-quality solution-processed high-k oxide dielectric films employed for large-scale and low-power-consumption electronics.