New Low Temperature Processing of Sol-Gel SrBi2Ta2O9 Thin Films

Abstract

A new low temperature processing method for preparation of SrBi₂Ta₂O₉ thin films is proposed. These thin films were prepared on Pt/Ta/ SiO₂/Si substrates by a sol-gel method, and their structural and electrical properties were investigated. Films were annealed before and after the top Pt electrode deposition. The 1st annealing was performed in a 760 Torr oxygen atmosphere at 600° C for 30 min, and the 2nd annealing was performed in a 5 Torr oxygen atmosphere at 600° C for 30 min. The films were well crystallized and fine grained after the 2nd annealing. The electrical properties of the 200-nm-thick film obtained using this new processing method, i.e., the remanent polarization (P _r), coercive field (E _c), and leakage current density (I _L), were as follows: P _r=8.5 µ C/cm², E _c=30 kV/cm, and I _L=1×10^-7 A/cm² (at 150 kV/cm). This new processing method is very attractive for highly integrated ferroelectric nonvolatile memory applications.