Domain boundaries (DBs) generated during the growth of cubic silicon carbide (3C-SiC) on (001) Si and their interaction with stacking faults (SFs) were studied in this work. Direct scanning transmission electron microscopy (STEM) images show DBs are inverted domain boundaries (IDBs). The atomic arrangement of this IDB is different from the expected boundaries described in the literature; nevertheless, it has a highly coherent nature. The IDBs propagate in a complex way through the crystal forming "complex-IDBs" that interact strongly with SFs. In particular, we observed that IDBs can terminate and generate SFs. The presence of disconnections in the IDB could be responsible for this behavior. Some models are discussed in order to explain the interconnections between IDBs and SFs. Moreover, an ab initio Monte Carlo simulation was performed in order to shed light on the kinetics of the SFs-IDB interaction. We found that SF generation can be driven by surface instability during the growth of the crystal and that SFs can be terminated by IDBs.
Generation and Termination of Stacking Faults by Inverted Domain Boundaries in 3C-SiC
Zimbone Massimo;Bongiorno Corrado;Fisicaro Giuseppe;La Magna Antonino;La Via Francesco
2020
Abstract
Domain boundaries (DBs) generated during the growth of cubic silicon carbide (3C-SiC) on (001) Si and their interaction with stacking faults (SFs) were studied in this work. Direct scanning transmission electron microscopy (STEM) images show DBs are inverted domain boundaries (IDBs). The atomic arrangement of this IDB is different from the expected boundaries described in the literature; nevertheless, it has a highly coherent nature. The IDBs propagate in a complex way through the crystal forming "complex-IDBs" that interact strongly with SFs. In particular, we observed that IDBs can terminate and generate SFs. The presence of disconnections in the IDB could be responsible for this behavior. Some models are discussed in order to explain the interconnections between IDBs and SFs. Moreover, an ab initio Monte Carlo simulation was performed in order to shed light on the kinetics of the SFs-IDB interaction. We found that SF generation can be driven by surface instability during the growth of the crystal and that SFs can be terminated by IDBs.| File | Dimensione | Formato | |
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Generation and Termination of Stacking Faults by Inverted Domain.pdf
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Generation and termination.pdf
Open Access dal 18/03/2021
Descrizione: This is the Author Accepted Manuscript version of the following paper: Generation and termination of stacking faults by Inverted Domain Boundary in 3C-SiC Massimo Zimbone*°, Eric Gasparo Barbagiovanni§, Corrado Bongiorno°, Cristiano Calabretta-, Lucia Calcagno&, Giuseppe Fisicaro°, Antonino La Magna°, Francesco La Via° Year: 2020 Peer‐reviewed and accepted for publication in: Cryst. Growth Des. 2020, 20, 5, 3104–3111 DOI: 10.1021/acs.cgd.9b01708 LINK https://doi.org/10.1021/acs.cgd.9b01708
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