Abstract
This work deals with the fabrication of a GaAs metal–oxide–semiconductor device with an unpinned interface environment. An ultrathin ( ∼ 2 nm) interface passivation layer (IPL) of ZnO on GaAs was grown by metal organic chemical vapor deposition to control the interface trap densities and to prevent the Fermi level pinning before high-k deposition. X-ray photoelectron spectroscopy and high resolution transmission electron microscopy results show that an ultra thin layer of ZnO IPL can effectively suppress the oxides formation and minimize the Fermi level pinning at the interface between the GaAs and ZrO 2. By incorporating ZnO IPL, GaAs MOS devices with improved capacitance-voltage and reduced gate leakage current were achieved. The charge trapping behavior of the ZrO 2/ZnO gate stack under constant voltage stressing exhibits an improved interface quality and high dielectric reliability.
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