High quality epitaxial piezoelectric and ferroelectric wurtzite Al1-xScxN thin films

Abstract

Piezoelectric and ferroelectric wurtzite are promising to reshape modern microelectronics because they can be easily integrated with mainstream semiconductor technology. Sc doped AlN (Al1-xScxN) has attracted much attention for its enhanced piezoelectric and emerging ferroelectric properties, yet the commonly used sputtering results in polycrystalline Al1-xScxN films with high leakage current. Here we report the pulsed laser deposition of single crystalline epitaxial Al1-xScxN thin films on sapphire and 4H-SiC substrates. Pure wurtzite phase is maintained up to x = 0.3 with minimal oxygen contamination. Polarization is estimated to be 140 μC/cm2 via atomic scale microscopy imaging and found to be switchable via a scanning probe. The piezoelectric coefficient is found to be 5 times of undoped one when x = 0.3, making it desirable for high frequency radiofrequency (RF) filters and three-dimensional nonvolatile memories.