Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates
The requirement of lattice matching between a material and its substrate for the growth of defect-free heteroepitaxial crystals can be circumvented with van der Waals epitaxy (vdWE). However, the utilization and characteristics of vdWE in nonlamellar/nonplanar nanoarchitectures are still not very we...
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sg-ntu-dr.10356-974622020-03-07T12:34:44Z Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates Belarre, Francisco J. Utama, Muhammad Iqbal Bakti Magen, Cesar Peng, Bo Arbiol, Jordi Xiong, Qihua School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences The requirement of lattice matching between a material and its substrate for the growth of defect-free heteroepitaxial crystals can be circumvented with van der Waals epitaxy (vdWE). However, the utilization and characteristics of vdWE in nonlamellar/nonplanar nanoarchitectures are still not very well-documented. Here we establish the characteristics of vdWE in nanoarchitectures using a case study of ZnO nanowire (NW) array on muscovite mica substrate without any buffer/seed layer. With extensive characterizations involving electron microscopy, diffractometry, and the related analyses, we conclude that the NWs grown via vdWE exhibit an incommensurate epitaxy. The incommensurate vdWE allows a nearly complete lattice relaxation at the NW-substrate heterointerface without any defects, thus explaining the unnecessity of lattice matching for well-crystallized epitaxial NWs on muscovite mica. We then determine the polarity of the NW via a direct visualization of Zn–O dumbbells using the annular bright field scanning transmission electron miscroscopy (ABF-STEM) in order to identify which atoms are at the base of the NWs and responsible for the van der Waals interactions. The information from the ABF-STEM is then used to construct the proper atomic arrangement at the heterointerface with a 3D atomic modeling to corroborate the characteristics of the incommensurate vdWE. Our findings suggest that the vdWE might be extended for a wider varieties of compounds and epitaxial nanoarchitectures to serve as a universal epitaxy strategy. 2013-06-26T06:23:37Z 2019-12-06T19:43:00Z 2013-06-26T06:23:37Z 2019-12-06T19:43:00Z 2012 2012 Journal Article Utama, M. I. B., Belarre, F. J., Magen, C., Peng, B., Arbiol, J., & Xiong, Q. (2012). Incommensurate van der Waals Epitaxy of Nanowire Arrays: A Case Study with ZnO on Muscovite Mica Substrates. Nano Letters, 12(4), 2146-2152. 1530-6984 https://hdl.handle.net/10356/97462 http://hdl.handle.net/10220/10713 10.1021/nl300554t en Nano letters © 2012 American Chemical Society. |
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The requirement of lattice matching between a material and its substrate for the growth of defect-free heteroepitaxial crystals can be circumvented with van der Waals epitaxy (vdWE). However, the utilization and characteristics of vdWE in nonlamellar/nonplanar nanoarchitectures are still not very well-documented. Here we establish the characteristics of vdWE in nanoarchitectures using a case study of ZnO nanowire (NW) array on muscovite mica substrate without any buffer/seed layer. With extensive characterizations involving electron microscopy, diffractometry, and the related analyses, we conclude that the NWs grown via vdWE exhibit an incommensurate epitaxy. The incommensurate vdWE allows a nearly complete lattice relaxation at the NW-substrate heterointerface without any defects, thus explaining the unnecessity of lattice matching for well-crystallized epitaxial NWs on muscovite mica. We then determine the polarity of the NW via a direct visualization of Zn–O dumbbells using the annular bright field scanning transmission electron miscroscopy (ABF-STEM) in order to identify which atoms are at the base of the NWs and responsible for the van der Waals interactions. The information from the ABF-STEM is then used to construct the proper atomic arrangement at the heterointerface with a 3D atomic modeling to corroborate the characteristics of the incommensurate vdWE. Our findings suggest that the vdWE might be extended for a wider varieties of compounds and epitaxial nanoarchitectures to serve as a universal epitaxy strategy. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Belarre, Francisco J. Utama, Muhammad Iqbal Bakti Magen, Cesar Peng, Bo Arbiol, Jordi Xiong, Qihua |
| format |
Article |
| author |
Belarre, Francisco J. Utama, Muhammad Iqbal Bakti Magen, Cesar Peng, Bo Arbiol, Jordi Xiong, Qihua |
| spellingShingle |
Belarre, Francisco J. Utama, Muhammad Iqbal Bakti Magen, Cesar Peng, Bo Arbiol, Jordi Xiong, Qihua Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| author_sort |
Belarre, Francisco J. |
| title |
Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| title_short |
Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| title_full |
Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| title_fullStr |
Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| title_full_unstemmed |
Incommensurate van der Waals epitaxy of nanowire arrays : a case study with ZnO on muscovite mica substrates |
| title_sort |
incommensurate van der waals epitaxy of nanowire arrays : a case study with zno on muscovite mica substrates |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/97462 http://hdl.handle.net/10220/10713 |
| _version_ |
1681043519770198016 |