Low Thermal Budget Fabrication and Performance Comparison of MFM Capacitors With Thermal and Plasma-Enhanced Atomic Layer Deposited H0.45Zr0.55Ox Ferroelectrics

The ferroelectricity of Zr-doped HfO2 (HZO) thin films induced by low thermal budget annealing provides great potential to implement the ferroelectric functionalities into the back end of line (BEOL) process of the standard CMOS integrated circuits. However, most of previous works need high temperature annealing or long time annealing to acquire ferroelectricity. In this work, both annealing temperature and time are optimized to achieve optimal ferroelectricity of Hf0.45Zr0.55Ox films produced by thermal atomic layer deposition (TALD) and plasma-enhanced atomic layer deposition (PEALD). The results indicate that the TALD and PEALD films exhibit maximum double remanent polarization (2P(r)) of similar to 36.8 and similar to 30.0 mu C/cm(2), respectively, after annealing at 330 degrees C for 300 s. Furthermore, the characteristics of the above annealed films are comprehensively compared. It is found that the PEALD film exhibits a higher maximum-dielectric-constant, a higher breakdown electric field, and better endurance against switching cycles than the TALD one, but more severe wake-up effects. This is ascribed to the factor that the PEALD film contains more tetragonal phase and less defects than the TALD one. In this article, the PEALD film has moderate P-r and robust endurance, which is more promising for memory devices.