Layer-resolved release of epitaxial layers in III-V heterostructure via a buffer-free mechanical separation technique

Honghwi Park, Heungsup Won, Changhee Lim, Yuxuan Zhang, Won Seok Han, Sung Bum Bae, Chang Ju Lee, Yeho Noh, Junyeong Lee, Jonghyung Lee, Sunghwan Jung, Muhan Choi, Sunghwan Lee, Hongsik Park

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

Layer-release techniques for producing freestanding III-V epitaxial layers have been actively developed for heterointegration of single-crystalline compound semiconductors with Si platforms. However, for the release of target epitaxial layers from III-V heterostructures, it is required to embed a mechanically or chemically weak sacrificial buffer beneath the target layers. This requirement severely limits the scope of processable materials and their epi-structures and makes the growth and layer-release process complicated. Here, we report that epitaxial layers in commonly used III-V heterostructures can be precisely released with an atomic-scale surface flatness via a buffer-free separation technique. This result shows that heteroepitaxial interfaces of a normal lattice-matched III-V heterostructure can be mechanically separated without a sacrificial buffer and the target interface for separation can be selectively determined by adjusting process conditions. This technique of selective release of epitaxial layers in III-V heterostructures will provide high fabrication flexibility in compound semiconductor technology.

Original languageEnglish
Article numbereabl6406
JournalScience advances
Volume8
Issue number3
DOIs
StatePublished - Jan 2022

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