The role of polarity in nonplanar semiconductor nanostructures
The lack of mirror symmetry in binary semiconductor compounds turns them into polar materials, where two opposite orientations of the same crystallographic direction are possible. Interestingly, their physical properties (e.g., electronic or photonic) and morphological features (e.g., shape, growth...
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sg-ntu-dr.10356-1453212023-02-28T19:21:53Z The role of polarity in nonplanar semiconductor nanostructures de la Mata, María Zamani, Reza R. Martí-Sánchez, Sara Eickhoff, Martin Xiong, Qihua Fontcuberta i Morral, Anna Caroff, Philippe Arbiol, Jordi School of Physical and Mathematical Sciences Science::Physics Polarity Semiconductor The lack of mirror symmetry in binary semiconductor compounds turns them into polar materials, where two opposite orientations of the same crystallographic direction are possible. Interestingly, their physical properties (e.g., electronic or photonic) and morphological features (e.g., shape, growth direction, and so forth) also strongly depend on the polarity. It has been observed that nanoscale materials tend to grow with a specific polarity, which can eventually be reversed for very specific growth conditions. In addition, polar-directed growth affects the defect density and topology and might induce eventually the formation of undesirable polarity inversion domains in the nanostructure, which in turn will affect the photonic and electronic final device performance. Here, we present a review on the polarity-driven growth mechanism at the nanoscale, combining our latest investigation with an overview of the available literature highlighting suitable future possibilities of polarity engineering of semiconductor nanostructures. The present study has been extended over a wide range of semiconductor compounds, covering the most commonly synthesized III-V (GaN, GaP, GaAs, GaSb, InN, InP, InAs, InSb) and II-VI (ZnO, ZnTe, CdS, CdSe, CdTe) nanowires and other free-standing nanostructures (tripods, tetrapods, belts, and membranes). This systematic study allowed us to explore the parameters that may induce polarity-dependent and polarity-driven growth mechanisms, as well as the polarity-related consequences on the physical properties of the nanostructures. Published version 2020-12-17T04:27:28Z 2020-12-17T04:27:28Z 2019 Journal Article de la Mata, M., Zamani, R. R., Martí-Sánchez, S., Eickhoff, M., Xiong, Q., Fontcuberta i Morral, A., . . . Arbiol, J. (2019). The role of polarity in nonplanar semiconductor nanostructures. Nano Letters, 19(6), 3396-3408. doi:10.1021/acs.nanolett.9b00459 1530-6984 https://hdl.handle.net/10356/145321 10.1021/acs.nanolett.9b00459 31039314 6 19 3396 3408 en Nano Letters © 2019 American Chemical Society. This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes. application/pdf |
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Science::Physics Polarity Semiconductor |
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Science::Physics Polarity Semiconductor de la Mata, María Zamani, Reza R. Martí-Sánchez, Sara Eickhoff, Martin Xiong, Qihua Fontcuberta i Morral, Anna Caroff, Philippe Arbiol, Jordi The role of polarity in nonplanar semiconductor nanostructures |
| description |
The lack of mirror symmetry in binary semiconductor compounds turns them into polar materials, where two opposite orientations of the same crystallographic direction are possible. Interestingly, their physical properties (e.g., electronic or photonic) and morphological features (e.g., shape, growth direction, and so forth) also strongly depend on the polarity. It has been observed that nanoscale materials tend to grow with a specific polarity, which can eventually be reversed for very specific growth conditions. In addition, polar-directed growth affects the defect density and topology and might induce eventually the formation of undesirable polarity inversion domains in the nanostructure, which in turn will affect the photonic and electronic final device performance. Here, we present a review on the polarity-driven growth mechanism at the nanoscale, combining our latest investigation with an overview of the available literature highlighting suitable future possibilities of polarity engineering of semiconductor nanostructures. The present study has been extended over a wide range of semiconductor compounds, covering the most commonly synthesized III-V (GaN, GaP, GaAs, GaSb, InN, InP, InAs, InSb) and II-VI (ZnO, ZnTe, CdS, CdSe, CdTe) nanowires and other free-standing nanostructures (tripods, tetrapods, belts, and membranes). This systematic study allowed us to explore the parameters that may induce polarity-dependent and polarity-driven growth mechanisms, as well as the polarity-related consequences on the physical properties of the nanostructures. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences de la Mata, María Zamani, Reza R. Martí-Sánchez, Sara Eickhoff, Martin Xiong, Qihua Fontcuberta i Morral, Anna Caroff, Philippe Arbiol, Jordi |
| format |
Article |
| author |
de la Mata, María Zamani, Reza R. Martí-Sánchez, Sara Eickhoff, Martin Xiong, Qihua Fontcuberta i Morral, Anna Caroff, Philippe Arbiol, Jordi |
| author_sort |
de la Mata, María |
| title |
The role of polarity in nonplanar semiconductor nanostructures |
| title_short |
The role of polarity in nonplanar semiconductor nanostructures |
| title_full |
The role of polarity in nonplanar semiconductor nanostructures |
| title_fullStr |
The role of polarity in nonplanar semiconductor nanostructures |
| title_full_unstemmed |
The role of polarity in nonplanar semiconductor nanostructures |
| title_sort |
role of polarity in nonplanar semiconductor nanostructures |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145321 |
| _version_ |
1759858171669643264 |