Thru‐Hole Epitaxy: A Highway for Controllable and Transferable Epitaxial Growth

Dongsoo Jang; Chulwoo Ahn; Youngjun Lee; Seungjun Lee; Hyunkyu Lee; Donghoi Kim; Yongsun Kim; Ji‐Yong Park; Young‐Kyun Kwon; Jaewu Choi; Chinkyo Kim

doi:10.1002/admi.202201406

Advanced Materials Interfaces (Feb 2023)

Thru‐Hole Epitaxy: A Highway for Controllable and Transferable Epitaxial Growth

Dongsoo Jang,
Chulwoo Ahn,
Youngjun Lee,
Seungjun Lee,
Hyunkyu Lee,
Donghoi Kim,
Yongsun Kim,
Ji‐Yong Park,
Young‐Kyun Kwon,
Jaewu Choi,
Chinkyo Kim

Affiliations

Dongsoo Jang: Department of Physics Kyung Hee University Seoul 02447 Korea
Chulwoo Ahn: Department of Information Display Kyung Hee University Seoul 02447 Korea
Youngjun Lee: Department of Physics Kyung Hee University Seoul 02447 Korea
Seungjun Lee: Department of Physics Kyung Hee University Seoul 02447 Korea
Hyunkyu Lee: Department of Information Display Kyung Hee University Seoul 02447 Korea
Donghoi Kim: Department of Information Display Kyung Hee University Seoul 02447 Korea
Yongsun Kim: Department of Physics and Department of Energy Systems Research Ajou University Suwon 16499 Korea
Ji‐Yong Park: Department of Physics and Department of Energy Systems Research Ajou University Suwon 16499 Korea
Young‐Kyun Kwon: Department of Physics Kyung Hee University Seoul 02447 Korea
Jaewu Choi: Department of Information Display Kyung Hee University Seoul 02447 Korea
Chinkyo Kim: Department of Physics Kyung Hee University Seoul 02447 Korea

DOI: https://doi.org/10.1002/admi.202201406
Journal volume & issue: Vol. 10, no. 4
pp. n/a – n/a

Abstract

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Abstract Controllable growth and facile transferability of a crystalline film with desired characteristics, acquired by tuning composition and crystallographic orientation, become highly demanded for advanced flexible devices. Here the desired crystallographic orientations and facile transferability of a crystalline film can be achieved by “thru‐hole epitaxy” in a straightforward and undemanding manner with no limitation on the layer number and polarity of a 2D space layer and the surface characteristics. The crystallographic alignment can be established by the connectedness of the grown material to the substrate through a small net cross‐sectional area of thru‐holes, which also allows the straightforward detachment of the grown material. Thru‐hole epitaxy can be adopted for the realization of advanced flexible devices on large scale with desired crystallographic orientation and facile transferability.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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