Chemical reaction concerns of gate metal with gate dielectric in Ta gate MOS devices:: An effect of self-sealing barrier configuration interposed between Ta and SiO2

Chemical reaction of gate metal with gate dielectric for Ta gate MOS devices has been experimentally investigated both by electrical and physical measurements: capacitance-voltage (C-V), current-voltage (I-V), transmission electron microscopy (TEM), energy dispersive X-ray (EDX), electron diffraction measurements. In spite of the chemical reaction of Ta with SiO2 consuming similar to1-nm-thick in gate oxide, the interface trap densities of similar to2 x 10(10) cm(-2)eV(-1) at midgap and ideal channel mobility characteristics have been observed in the Ta gate MOS devices with 5.5-nm-thick thermal oxide gate dielectric, Considering the experimental data with theoretical calculation based on thermodynamics together, a barrier laver model has been developed for the Ta gate MOS systems. The physical mechanism involved is probably self-sealing barrier layer formation resulting from the chemical reaction kinetics in the free-energy change of Ta-Si-O system.