Abstract

Electrical and chemical characteristics of metal-oxide semiconductor field-effect transistors (MOSFETs) prepared by low-thermal-budget (∼600 °C) NH3 post-deposition annealing of HfSiON gate dielectric have been investigated. Compared to control Hf-silicate, HfSiON showed excellent thickness scalability, low leakage current density (J), and superior thermal stability. With proper annealing-time optimization, effective oxide thickness as low as 9.2 Å with J<100 mA/cm2 at gate voltage Vg=−1.5 V has been achieved. C–V hysteresis of HfSiON MOSFET was found to be small (<20 mV). Unlike NH3 surface nitridation (NH3 pre-treatment prior to Hf-silicate deposition), no degradation in Gm (transconductance), Id–Vg (drain current–gate voltage), or Id–Vd (drain current–drain voltage) characteristics has been observed.