What question did this study set out to answer?

This research aims to investigate the surface properties of beta-Ga2O3 single crystals cleaved along the (100) plane.

March 5, 2026Open Access

Surface termination of -Ga₂O₃ (100) as-cleaved single crystals

Key Points

This research aims to investigate the surface properties of beta-Ga2O3 single crystals cleaved along the (100) plane.
Utilized surface X-ray diffraction to analyze crystal structure
Employed atomic force microscopy for surface morphology examination
Examined cleavage planes related to oxygen octahedra
Confirmed cleavage occurs at planes formed by edge-sharing oxygen octahedra
Identified breaking of the longest and weakest Ga-O bonds
Showed non-polar nature of the exposed (100) surface
Found terraces spaced by approximately 0.6 nm, influenced by crystal symmetry

Abstract

The surface of -Ga₂O₃ single crystals cleaved along their (100) plane is investigated using surface X-ray diffraction and atomic force microscopy. The results show that the crystal cleaves at planes formed by edge-sharing oxygen octahedra, thereby breaking the longest and weakest Ga-O bonds. As a consequence, the exposed (100) surface is non-polar in nature. Owing to the crystal symmetry, terraces separated by half the a-axis length of approx. 0. 6 nm are formed. These results are important in view of the use of -Ga₂O₃ in thin film form, as exfoliated nano-belts or as nanoribbons in semiconductor high-power applications.

Surface termination of -Ga₂O₃ (100) as-cleaved single crystals

Key Points

Abstract

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