Effect of impurities on the fixed charge of nanoscale HfO ₂ films grown by atomic layer deposition

HfO ₂ films were grown by atomic layer deposition using two different precursor chemistries - HfCl ₄ and tetrakis(diethylamido) hafnium (TDEAH) with H ₂O as the oxidant. Electrical measurements on capacitor structures fabricated using the films showed a 0.4 V positive shift in the flatband voltage for the chloride-HfO ₂ with respect to the amide-derived HfO ₂, indicating a considerable negative fixed charge in the dielectric. Secondary ion mass spectrometry depth profiles of the gate stack showed that Cl segregated preferentially at the HfO ₂/SiO ₂ interface for chloride-derived HfO ₂. In situ vacuum anneals of the HfCl ₄-derived films at 500°C did not affect the profile, indicating that Cl is stably bonded at that interface. A similar analysis of the TDEAH-derived HfO ₂ showed very low concentrations of C, N, and H impurities. A positive fixed charge of +4.5 × 10 ¹¹/cm ² was extracted for the amide-HfO ₂ whereas a negative fixed charge of -1.86×10 ¹²/cm ² was estimated for the chloride-HfO ₂. Thus, Cl incorporation can significantly alter both the magnitude and sign of the fixed charge in the HfO ₂/SiO ₂/Si gate stacks.