Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10%
GeSn/Si heterojunction photodiodes are attractive because they can extend light detection wavelength range. However, the development of such photodiodes via epitaxial growth faces great challenges due to unavoidable issues such as lattice and thermal mismatches between Si and GeSn. Here, print Si na...
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sg-ntu-dr.10356-1643512023-01-17T05:17:12Z Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% An, Shu Huang, Yi-Chiau Wu, Chen-Ying Huang, Po-Rei Chang, Guo-En Lai, Junyu Seo, Jung-Hun Kim, Munho School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Heterojunction Nanomembranes GeSn/Si heterojunction photodiodes are attractive because they can extend light detection wavelength range. However, the development of such photodiodes via epitaxial growth faces great challenges due to unavoidable issues such as lattice and thermal mismatches between Si and GeSn. Here, print Si nanomembranes are transferred on GeSn/Ge/Si substrates to form the GeSn/Si heterojunction photodiodes. The p-Ge0.977Sn0.023/n-Si heterojunction photodiodes exhibit a good rectifying behavior with a low dark current density of 40 mA cm−2 and responsivity of 0.41 A W−1 at 1550 nm under a reverse bias of −2 V. In addition, the detection wavelength range of p-Ge0.9Sn0.1/n-Si is extended to 2100 nm because of the increased Sn composition. The bandgap calculation of as-grown GeSn with various Sn compositions is carried out. It confirms that the enhanced responsivity and extended detection wavelength ranges are attributed to the reduced bandgap from 750 to 601 meV when the Sn composition is increased from 2.3% to 10%. The result shows that the transfer printing of a freestanding single-crystalline Si nanomembrane to a bulk GeSn/Ge/Si substrate can provide an excellent alternative route for realizing GeSn/Si heterojunction photodiodes. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version This work was supported by the A*STAR, Singapore, Advanced Manufacturing and Engineering (AME) Young Individual Research Grant (YIRG) under the Project A2084c0066 and Ministry of Education, Singapore, under the Grant Academic Research Fund Tier 2 grant (T2EP50120-0001) and Tier 1-2020-T1-002-020 (RG136/20). 2023-01-17T05:17:12Z 2023-01-17T05:17:12Z 2022 Journal Article An, S., Huang, Y., Wu, C., Huang, P., Chang, G., Lai, J., Seo, J. & Kim, M. (2022). Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10%. Advanced Materials Technologies. https://dx.doi.org/10.1002/admt.202201136 2365-709X https://hdl.handle.net/10356/164351 10.1002/admt.202201136 2-s2.0-85139248950 en A2084c0066 T2EP50120-0001 2020-T1-002-020 (RG136/20) Advanced Materials Technologies © 2022 Wiley-VCH GmbH. All rights reserved. This is the peer reviewed version of the following article: An, S., Huang, Y., Wu, C., Huang, P., Chang, G., Lai, J., Seo, J. & Kim, M. (2022). Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10%. Advanced Materials Technologies, which has been published in final form at https://doi.org/10.1002/admt.202201136. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Electrical and electronic engineering Heterojunction Nanomembranes An, Shu Huang, Yi-Chiau Wu, Chen-Ying Huang, Po-Rei Chang, Guo-En Lai, Junyu Seo, Jung-Hun Kim, Munho Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| description |
GeSn/Si heterojunction photodiodes are attractive because they can extend light detection wavelength range. However, the development of such photodiodes via epitaxial growth faces great challenges due to unavoidable issues such as lattice and thermal mismatches between Si and GeSn. Here, print Si nanomembranes are transferred on GeSn/Ge/Si substrates to form the GeSn/Si heterojunction photodiodes. The p-Ge0.977Sn0.023/n-Si heterojunction photodiodes exhibit a good rectifying behavior with a low dark current density of 40 mA cm−2 and responsivity of 0.41 A W−1 at 1550 nm under a reverse bias of −2 V. In addition, the detection wavelength range of p-Ge0.9Sn0.1/n-Si is extended to 2100 nm because of the increased Sn composition. The bandgap calculation of as-grown GeSn with various Sn compositions is carried out. It confirms that the enhanced responsivity and extended detection wavelength ranges are attributed to the reduced bandgap from 750 to 601 meV when the Sn composition is increased from 2.3% to 10%. The result shows that the transfer printing of a freestanding single-crystalline Si nanomembrane to a bulk GeSn/Ge/Si substrate can provide an excellent alternative route for realizing GeSn/Si heterojunction photodiodes. |
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School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering An, Shu Huang, Yi-Chiau Wu, Chen-Ying Huang, Po-Rei Chang, Guo-En Lai, Junyu Seo, Jung-Hun Kim, Munho |
| format |
Article |
| author |
An, Shu Huang, Yi-Chiau Wu, Chen-Ying Huang, Po-Rei Chang, Guo-En Lai, Junyu Seo, Jung-Hun Kim, Munho |
| author_sort |
An, Shu |
| title |
Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| title_short |
Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| title_full |
Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| title_fullStr |
Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| title_full_unstemmed |
Single-crystalline Ge₁₋ₓSnₓ/Si p–n heterojunction photodiodes with Sn compositions up to 10% |
| title_sort |
single-crystalline ge₁₋ₓsnₓ/si p–n heterojunction photodiodes with sn compositions up to 10% |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164351 |
| _version_ |
1756370583926341632 |