Facile synthesis and characterisation of uniform and monodispersed In(OH)3 and In2O3 microcubes

Facile synthesis and characterisation of uniform and monodispersed In(OH)3 and In2O3 microcubes

In(OH)3 microcubes have been successfully synthesised by a direct precipitation in solution at room temperature without using any surfactant or template. Furthermore, the In2O3 microcubes were obtained through calcining the In(OH)3 microcubes. The results show that the as-prepared In(OH)3 and In2O3...

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Veröffentlicht in:Micro & nano letters 2017-09, Vol.12 (9), p.701-704
Hauptverfasser: Xu, Zhenhe, Lin, Junying, Yu, He, Sun, Yaguang, Ding, Fu, Fan, Hongtao, Shi, Shan, Fang, Qinghong, Bi, Yanfeng, Gao, Yu
Format: Artikel
Sprache:eng
Schlagworte:
calcination
direct precipitation
In(OH)3
In2O3
indium compounds
monodispersed microcubes
nanofabrication
nanostructured materials
orientation attachment
oxygen dehciencies
photoluminescence
photoluminescence emission
self‐assembly
semiconductor growth
temperature 293 K to 298 K
ultraviolet excitation
wide band gap semiconductors
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Zusammenfassung:In(OH)3 microcubes have been successfully synthesised by a direct precipitation in solution at room temperature without using any surfactant or template. Furthermore, the In2O3 microcubes were obtained through calcining the In(OH)3 microcubes. The results show that the as-prepared In(OH)3 and In2O3 products have a cube shape with a mean edge length of 190 and 155 nm, respectively. The self-assembly process via orientation attachment is proposed in order to explain the growth mechanism for the microcubes. Upon ultraviolet excitation, a broad blue photoluminescence emission with its maximum intensity centred at 466 nm is shown, which is due to the oxygen deficiencies in the In2O3 microcubes. It endows these microcubes with potential application, such as liquid crystal devices, solar-energy conversion, optical and electric devices.
ISSN:1750-0443
1750-0443
DOI:10.1049/mnl.2017.0090