Abstract

In this work, p-substrate MOS capacitors with plasma-enhanced atomic-layer-deposited Al2O3/ thermally-grown SiO2 dielectric stack (with a target equivalent oxide thickness of 4.2 nm) are investigated by means of the conductance method in a temperature range from 25 °C to 150 °C. The trap state density and energy level distribution in the silicon bandgap are extracted over the bandgap. Furthermore, negative bias temperature instability is analyzed by two-point capacitance–voltage characterization to evaluate the electrical stability and dielectric reliability of the Al2O3/SiO2 stack. The contributions from interface and oxide trap generations are detailed. Our results indicate that plasma-enhanced atomic layer deposited Al2O3 on thermal SiO2 stack features low interface trap density, and comparable dielectric reliability to conventional SiO2, SiOxNy, and high-k dielectric stacks.

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