Controllable synthesis of indium oxide nanorod‐flowers for high field emission performance

In this paper, indium oxide (In2O3) nanomaterials are successfully synthesized on the silicon substrates by hydrothermal method and calcination. By changing the ratio of raw materials, In2O3 exhibits three morphologies of nanorods, nanomaces, and nanorod‐flowers. Among the three morphologies of In2O...

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Bibliographic Details
Published in:Micro & nano letters 2023-05, Vol.18 (5), p.n/a
Main Authors: Hu, Yuechuan, Feng, Hange, Li, Lingwei, Luo, Menghao, Dong, Zibo, Xue, Shaolin
Format: Article
Language:English
Subjects:
Controllability
crystal growth
Electric fields
electronic materials
Field emission
Hydrothermal crystal growth
In2O3 nanorod‐flowers
Indium
Indium oxides
Ingredients
microstructure
Morphology
Nanomaterials
Nanorods
Ratios
Raw materials
Silicon
Silicon substrates
Synthesis
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Summary:In this paper, indium oxide (In2O3) nanomaterials are successfully synthesized on the silicon substrates by hydrothermal method and calcination. By changing the ratio of raw materials, In2O3 exhibits three morphologies of nanorods, nanomaces, and nanorod‐flowers. Among the three morphologies of In2O3 nanomaterials, the nanorod‐flowers shaped In2O3 shows a strong field emission property, the turn‐on electric field as low as 0.97 V/µm and the field enhancement factor β up to 1053. The excellent performance is attributed to the higher length to diameter (L/D) ratio of the emitting tips and the better crystal quality for nanorod‐flowers shaped In2O3. The authors also show that for the nanorod‐flowers shaped In2O3, increasing separation distance, the turn‐on electric field increases up to about 3.67 V/µm and β decreases to 573 at d = 900 µm. This work provides new insights to design and synthesize nanomaterials with excellent field emission properties. Different morphologies of indium oxide (In2O3) nanostructures had been synthesized via hydrothermal combined with calcination. The FE behaviours of In2O3 nanostructures were investigated. The field emission properties of the In2O3 nanorod‐flowers were enhanced greatly due to the higher length to diameter ratios of the emitting tips and the better crystal quality.
ISSN:1750-0443
1750-0443
DOI:10.1049/mna2.12163