Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers
We demonstrate the self-assembly synthesis of millimetre-long guided trenches and micro-holes/rings in the supersaturated GeSn epilayers through two approaches: epitaxial growth engineering and thermal annealing treatment. It reveals that the ordered trenches originate from a central nucleation poin...
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sg-ntu-dr.10356-1437192020-09-18T07:13:48Z Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers Wu, Shaoteng Zhang, Lin Son, Bongkwon Chen, Qimiao Zhou, Hao Tan, Chuan Seng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering::Semiconductors Germanium Tin We demonstrate the self-assembly synthesis of millimetre-long guided trenches and micro-holes/rings in the supersaturated GeSn epilayers through two approaches: epitaxial growth engineering and thermal annealing treatment. It reveals that the ordered trenches originate from a central nucleation point which typically accompanied by micro-hole/ring formation. These trenches are caused by the migration of Sn droplets on the film surface with the orientation dominantly along <100> or <110>axis, determined by the Sn-content of the epilayers and formation temperature. The holes/rings are postulated to be caused by the local droplet etching due to the development of Ge-Sn eutectic. The morphological and compositional evolution of the Sn-segregation is characterized by the combination of optical and electronic microscopy, spectroscopy, and atomic force microscope measurements. This work provides a comprehensive understanding of the mechanism for the Sn segregation in GeSn and suggests the new degree of freedom to the growth and engineering of droplet-assisted micro-structures. Ministry of Education (MOE) National Research Foundation (NRF) Accepted version This work was support by the National Research Foundation Singapore Competitive Research Programme under Grant NRF–CRP19–2017–01 and Ministry of Education Tier-1 Project under Grant 2019-T1-002-040. 2020-09-18T07:11:40Z 2020-09-18T07:11:40Z 2020 Journal Article Wu, S., Zhang, L., Son, B., Chen, Q., Zhou, H., & Tan, C. S. (2020). Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers. The Journal of Physical Chemistry C, 124(37), 20035–20045. doi:10.1021/acs.jpcc.0c03820 1932-7447 https://hdl.handle.net/10356/143719 10.1021/acs.jpcc.0c03820 37 124 20035 20045 en NRF–CRP19–2017–01 2019-T1-002-040 The Journal of Physical Chemistry C This document is the Accepted Manuscript version of a Published Work that appeared in final form in The Journal of Physical Chemistry C, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.jpcc.0c03820 application/pdf |
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Engineering::Electrical and electronic engineering::Semiconductors Germanium Tin Wu, Shaoteng Zhang, Lin Son, Bongkwon Chen, Qimiao Zhou, Hao Tan, Chuan Seng Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| description |
We demonstrate the self-assembly synthesis of millimetre-long guided trenches and micro-holes/rings in the supersaturated GeSn epilayers through two approaches: epitaxial growth engineering and thermal annealing treatment. It reveals that the ordered trenches originate from a central nucleation point which typically accompanied by micro-hole/ring formation. These trenches are caused by the migration of Sn droplets on the film surface with the orientation dominantly along <100> or <110>axis, determined by the Sn-content of the epilayers and formation temperature. The holes/rings are postulated to be caused by the local droplet etching due to the development of Ge-Sn eutectic. The morphological and compositional evolution of the Sn-segregation is characterized by the combination of optical and electronic microscopy, spectroscopy, and atomic force microscope measurements. This work provides a comprehensive understanding of the mechanism for the Sn segregation in GeSn and suggests the new degree of freedom to the growth and engineering of droplet-assisted micro-structures. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wu, Shaoteng Zhang, Lin Son, Bongkwon Chen, Qimiao Zhou, Hao Tan, Chuan Seng |
| format |
Article |
| author |
Wu, Shaoteng Zhang, Lin Son, Bongkwon Chen, Qimiao Zhou, Hao Tan, Chuan Seng |
| author_sort |
Wu, Shaoteng |
| title |
Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| title_short |
Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| title_full |
Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| title_fullStr |
Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| title_full_unstemmed |
Insights into the origins of guided microtrenches and microholes/rings from Sn segregation in germanium–tin epilayers |
| title_sort |
insights into the origins of guided microtrenches and microholes/rings from sn segregation in germanium–tin epilayers |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143719 |
| _version_ |
1681059674065993728 |