Omschrijving
The hexagonal-2H crystal phase of Ge recently emerged as a promising direct bandgap semiconductor in the mid-infrared range providing new prospects of additional optoelectronic functionalities of group-IV semiconductors (Ge and SiGe). The controlled synthesis of such hexagonal(2H)Gephaseis a challenge that can be overcome by usingwurtziteGaAsnanowires as a template. However, depending on growth conditions, unusual basal stacking faults (BSFs) of I3-type are formed in themetastable2H structure. The growth of such core/shell heterostructures has been observed in situ and in real-time by means of environmental transmission electron microscopy using chemical vapor deposition. The observations provide direct evidence of a step-flow growth of the Ge-2H epi layer and reveal the growth-related formation of I3-BSF during unstable growth. Their formation conditions are dynamically investigated. Through these in situ observations we can propose a scenario for the nucleation of I3-type BSFs that is likely valid for any metastable hexagonal 2H or wurtzite structures grown on m-plane substrates. Conditions are identified to avoid their formation for the perfect crystalline synthesis of SiGe-2H.
This dataset contains all the original scanning and transmission electron microscopy images and videos, and the atomic models that our results and understanding of the I3 defects are based on.
This dataset contains all the original scanning and transmission electron microscopy images and videos, and the atomic models that our results and understanding of the I3 defects are based on.
Datum van beschikbaarheid | 30 okt. 2021 |
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Uitgever | Zenodo |