Three-Dimensional crystallized ZnO crosslinked nanowire structure

[Display omitted] •A three-dimensional (3D) crystallized ZnO crosslinked network structure were synthesized by a counter-tilted epitaxial growth.•The crosslinked nanowire network can be naturally formed via the incorporation of Au catalysis.•The shape and width of nanowire networks can be precise co...

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Bibliographic Details
Published in:Inorganic chemistry communications 2022-06, Vol.140, p.109413, Article 109413
Main Authors: Yu, Lingya, Cai, Wenhan, Wang, Lilin, Lee, Chun-Yu, Sun, Shujing, Xiao, Yongchun, Shen, Kun-Ching, Chen, Chenlong
Format: Article
Language:English
Subjects:
3D network
crosslinked
ZnO nanowire
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Summary:[Display omitted] •A three-dimensional (3D) crystallized ZnO crosslinked network structure were synthesized by a counter-tilted epitaxial growth.•The crosslinked nanowire network can be naturally formed via the incorporation of Au catalysis.•The shape and width of nanowire networks can be precise controlled by modified  using a mixed ZnO/C vapor with different flow ratios. A counter-tilted epitaxial growth was used to fabricate a three-dimensional (3D) crystallized crosslinked network structure. The crosslinked nanowire network can be naturally formed via incorporation of Au catalysis, which simultaneously induces both vertical and lateral growths and results in a highly ordered for ZnO growth with specific orientations. Moreover, the shape and width of the nanowire network were modified using a mixed ZnO/C vapor with different flow ratios. With the mixed vapor ratio increasing, the polar ZnO growth can be suppressed and promotes nonpolar ZnO growth. This unique crosslinked network growth strengthens the structural stability and paves the way to the demand for a large-size, fast, and low-cost 3D network structure for electric and optic devices.
ISSN:1387-7003
1879-0259
DOI:10.1016/j.inoche.2022.109413