Direct Measurement of Electronic Band Structures at Oxide Grain Boundaries

JK Wei and T Ogawa and B Feng and T Yokoi and R Ishikawa and A Kuwabara and K Matsunaga and N Shibata and Y Ikuhara, NANO LETTERS, 20, 2530-2536 (2020).

DOI: 10.1021/acs.nanolett.9b05298

Grain boundaries (GBs) modulate the macroscopic properties in polycrystalline materials because they have different atomic and electronic structures from the bulk. Despite the progress on the understanding of GB atomic structures, knowledge of the localized electronic band structures is still lacking. Here, we experimentally characterized the atomic structures and the band gaps of four typical GBs in alpha-Al2O3 by scanning transmission electron microscopy and valence electron energy-loss spectroscopy (EELS). It was found that the band gaps of the GBs are narrowed by 0.5-2.1 eV compared with that of 8.8 eV in the bulk. By combing core-loss EELS with first-principles calculations, we elucidated that the band gap reductions directly correlate with the decrease of the coordination numbers of AI and O ions at the GBs. These results provide in-depth understanding between the local atomic and electronic band structures for GBs and demonstrate a novel electronic-structure analysis for crystalline defects.

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