Ferroelectric Al1-xBxN sputtered thin films on n-type Si bottom electrodes
Abstract
Ferroelectric Al1-xBxN thin films are grown on highly doped and plasma treated (100) n-type Si. We demonstrate ferroelectricity for x = <0.01, 0.02, 0.06, 0.08, 0.13, and 0.17 where the n-type Si is both the substrate and bottom electrode. Polarization hysteresis reveals remanent polarization values between 130-140 μC/cm2 and coercive field values as low as 4 MV/cm at 1 Hz with low leakage. The highest re-sistivity and most saturating hysteresis occurs with B contents between x = 0.06 and 0.13. We also demonstrate the impact of substrate plasma treatment time on Al1-xBxN crystallinity and switching. Cross-sectional transmission electron microscopy and electron energy loss spectra reveal an amorphous 3.5 nm SiNx layer at the Al1-xBxN interface post-plasma treatment and deposition. The first 5 nm of Al1-xBxN is crystallographically defective. Using the n-type Si substrate we demonstrate Al1-xBxN thick-ness scaling to 25 nm via low frequency hysteresis and CV. Serving as the bottom electrode and sub-strate, the n-type Si enables a streamlined growth process for Al1-xBxN for a wide range of Al1-xBxN compositions and layer thicknesses.
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