English

Thru-Hole Epitaxy: Is Remote Epitaxy Really Remote?

Materials Science 2023-02-13 v1

Abstract

The remote epitaxy was originally proposed to grow a film, which is not in contact but crystallographically aligned with a substrate and easily detachable due to a van der Waals material as a space layer. Here we show that the claimed remote epitaxy is more likely to be nonremote `thru-hole' epitaxy. On a substrate with thick and symmetrically incompatible van der Waals space layer or even with a three-dimensional amorphous oxide film in-between, we demonstratively grew GaN domains through thru-holes via connectedness-initiated epitaxial lateral overgrowth, not only readily detachable but also crystallographically aligned with a substrate. Our proposed nonremote thru-hole epitaxy, which is embarrassingly straightforward and undemanding, can provide wider applicability of the benefits known to be only available by the claimed remote epitaxy.

Cite

@article{arxiv.2110.01429,
  title  = {Thru-Hole Epitaxy: Is Remote Epitaxy Really Remote?},
  author = {Dongsoo Jang and Chulwoo Ahn and Youngjun Lee and Seungjun Lee and Hyunkyu Lee and Donghoi Kim and Young-Kyun Kwon and Jaewu Choi and Chinkyo Kim},
  journal= {arXiv preprint arXiv:2110.01429},
  year   = {2023}
}

Comments

19 pages, 5 figures, Supplementary Information (26 pages, 15 figures)

R2 v1 2026-06-24T06:36:23.205Z