Theoretical insights for Improving the Schottky-barrier Height at the Ga ₂ O ₃ /Pt Interface

Physical Review Applied 16.6 (2021): 064064 In this work we study the Schottky barrier height (SBH) at the junction between$\beta$ -Ga $_2$ O $_3$and platinum, a system of great importance for the next generation of high-power and high-temperature electronic devices. Specifically, we obtain interfac...

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Main Authors	Therrien, Félix, Zakutayev, Andriy, Stevanović, Vladan
Format	Journal Article
Language	English
Published	13.07.2021
Subjects	Physics - Materials Science
Online Access	Get full text
DOI	10.48550/arxiv.2107.06063

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Abstract	Physical Review Applied 16.6 (2021): 064064 In this work we study the Schottky barrier height (SBH) at the junction between$\beta$ -Ga $_2$ O $_3$and platinum, a system of great importance for the next generation of high-power and high-temperature electronic devices. Specifically, we obtain interfacial atomic structures at different orientations using our structure matching algorithm and compute their SBH using electronic structure calculations based on hybrid density functional theory. The orientation and strain of platinum are found to have little impact on the barrier height. In contrast, we find that decomposed water (H.OH), which could be present at the interface from Ga $_2$ O $_3$substrate preparation, has a strong influence on the SBH, in particular in the ( $\overline{2}$ 01) orientation. The SBH can range from$\sim$ 2 eV for the pristine interface to nearly zero for the full H.OH coverage. This result suggests that SBH of$\sim$ 2~eV can be achieved for the Ga $_2$ O $_3$ ( $\overline{2}$ 01)/Pt junction using the substrate preparation methods that can reduce the amount of adsorbed water at the interface.
AbstractList	Physical Review Applied 16.6 (2021): 064064 In this work we study the Schottky barrier height (SBH) at the junction between$\beta$ -Ga $_2$ O $_3$and platinum, a system of great importance for the next generation of high-power and high-temperature electronic devices. Specifically, we obtain interfacial atomic structures at different orientations using our structure matching algorithm and compute their SBH using electronic structure calculations based on hybrid density functional theory. The orientation and strain of platinum are found to have little impact on the barrier height. In contrast, we find that decomposed water (H.OH), which could be present at the interface from Ga $_2$ O $_3$substrate preparation, has a strong influence on the SBH, in particular in the ( $\overline{2}$ 01) orientation. The SBH can range from$\sim$ 2 eV for the pristine interface to nearly zero for the full H.OH coverage. This result suggests that SBH of$\sim$ 2~eV can be achieved for the Ga $_2$ O $_3$ ( $\overline{2}$ 01)/Pt junction using the substrate preparation methods that can reduce the amount of adsorbed water at the interface.
Author	Therrien, Félix Zakutayev, Andriy Stevanović, Vladan
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BackLink	https://doi.org/10.48550/arXiv.2107.06063$$DView paper in arXiv https://doi.org/10.1103/PhysRevApplied.16.064064$$DView published paper (Access to full text may be restricted)
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Title	Theoretical insights for Improving the Schottky-barrier Height at the Ga ₂ O ₃ /Pt Interface
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