Publikation: Ferroelectricity of wurtzite Al1−xHfxN heterovalent alloys
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2025
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Bernstein, Nate S. P.
Drury, Daniel
Lee, Cheng-Wei
Shimada, Tatau
Sakai, Yuki
Baumgarten, Lutz
Gorai, Prashun
Brennecka, Geoff L.
et al.
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U.S. National Science Foundation (NSF): DMR-2119281
Institutionen der Bundesrepublik Deutschland: 05KS7UM1
Institutionen der Bundesrepublik Deutschland: 05K10UMA
Deutsche Forschungsgemeinschaft (DFG): 425217212
Institutionen der Bundesrepublik Deutschland: 05KS7WW3
Institutionen der Bundesrepublik Deutschland: 05K10WW1
Institutionen der Bundesrepublik Deutschland: 05K13WW1
Institutionen der Bundesrepublik Deutschland: 05KS7UM1
Institutionen der Bundesrepublik Deutschland: 05K10UMA
Deutsche Forschungsgemeinschaft (DFG): 425217212
Institutionen der Bundesrepublik Deutschland: 05KS7WW3
Institutionen der Bundesrepublik Deutschland: 05K10WW1
Institutionen der Bundesrepublik Deutschland: 05K13WW1
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Applied Physics Letters. AIP Publishing. 2025, 127(6), 062902. ISSN 0003-6951. eISSN 1077-3118. Verfügbar unter: doi: 10.1063/5.0271563
Zusammenfassung
Thin films of aluminum hafnium nitride (Al1−xHfxN) were synthesized via reactive magnetron sputtering for Hf contents up to x = 0.13. X-ray diffraction showed a single c-axis oriented wurtzite phase for all films. Hard x-ray photoelectron spectroscopy demonstrated homogeneous Al:Hf distribution through the thin films and confirmed their insulating character. A collection of complementary tests showed unambiguous polarization inversion, and thus ferroelectricity in multiple samples. Current density vs electric field hysteresis measurements showed distinct ferroelectric switching current peaks, the piezoelectric coefficient d33,f,meas measured using a double beam laser interferometer (DBLI) showed a reversal in sign with similar magnitude, and anisotropic wet etching confirmed field-induced polarization inversion. This demonstrates the possibility of using tetravalent–and not just trivalent–alloying elements to enable ferroelectricity in AlN-based thin films, highlighting the compositional flexibility of ferroelectricity in wurtzites and greatly expanding the chemistries that can be considered for future devices.
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BERNSTEIN, Nate S. P., Daniel DRURY, Cheng-Wei LEE, Tatau SHIMADA, Yuki SAKAI, Oliver REHM, Lutz BAUMGARTEN, Martina MÜLLER, Prashun GORAI, Geoff L. BRENNECKA, 2025. Ferroelectricity of wurtzite Al1−xHfxN heterovalent alloys. In: Applied Physics Letters. AIP Publishing. 2025, 127(6), 062902. ISSN 0003-6951. eISSN 1077-3118. Verfügbar unter: doi: 10.1063/5.0271563BibTex
@article{Bernstein2025-08-11Ferro-75946,
title={Ferroelectricity of wurtzite Al<sub>1−x</sub>Hf<sub>x</sub>N heterovalent alloys},
year={2025},
doi={10.1063/5.0271563},
number={6},
volume={127},
issn={0003-6951},
journal={Applied Physics Letters},
author={Bernstein, Nate S. P. and Drury, Daniel and Lee, Cheng-Wei and Shimada, Tatau and Sakai, Yuki and Rehm, Oliver and Baumgarten, Lutz and Müller, Martina and Gorai, Prashun and Brennecka, Geoff L.},
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<dcterms:abstract>Thin films of aluminum hafnium nitride (Al<sub>1−x</sub>Hf<sub>x</sub>N) were synthesized via reactive magnetron sputtering for Hf contents up to x = 0.13. X-ray diffraction showed a single c-axis oriented wurtzite phase for all films. Hard x-ray photoelectron spectroscopy demonstrated homogeneous Al:Hf distribution through the thin films and confirmed their insulating character. A collection of complementary tests showed unambiguous polarization inversion, and thus ferroelectricity in multiple samples. Current density vs electric field hysteresis measurements showed distinct ferroelectric switching current peaks, the piezoelectric coefficient d<sub>33,f,meas</sub> measured using a double beam laser interferometer (DBLI) showed a reversal in sign with similar magnitude, and anisotropic wet etching confirmed field-induced polarization inversion. This demonstrates the possibility of using tetravalent–and not just trivalent–alloying elements to enable ferroelectricity in AlN-based thin films, highlighting the compositional flexibility of ferroelectricity in wurtzites and greatly expanding the chemistries that can be considered for future devices.</dcterms:abstract>
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