Interface state density and barrier height improvement in ammonium sulfide treated Al₂O₃/Si interfaces

The HF treatment removes the native oxide and lays behind the dangling bonds over the Si surface which causes the increment in density of interface traps (D_it) through the direct deposition of high-k dielectric on Si. Here, we propose the facile method for reduction of interface traps and improvement in barrier height with the (NH₄)₂S treatment on Al₂O₃/Si interfaces, which can be used as the base for the non-volatile memory device. The AFM was used to optimize the treatment time and surface properties, while XPS measurements were carried out to study the interface and extract the barrier height (Φ_B). The short period of 20 s treatment shows the improvement in the barrier height (1.02 eV), while the one order reduction in the D_it (0.84 × 10¹² cm²/eV) of sulfur passivated Al/Al₂O₃/Si MOS device. The results indicate the favorable passivation of the dangling bonds over the Si surfaces covered by sulfur atoms.