Structural and morphology of ZnO nanorods synthesized using ZnO seeded growth hydrothermal method and its properties as UV sensing

Structural and morphology of ZnO nanorods synthesized using ZnO seeded growth hydrothermal method and its properties as UV sensing

In this study, zinc oxide (ZnO) nanorod arrays were synthesized using a simple hydrothermal reaction on ZnO seeds/n-silicon substrate. Several parameters were studied, including the heat-treatment temperature to produce ZnO seeds, zinc nitrate concentration, pH of hydrothermal reaction solution, and...

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Bibliographic Details
Published in:PloS one Vol. 7; no. 11; p. e50405
Main Authors: Ridhuan, Nur Syafinaz, Razak, Khairunisak Abdul, Lockman, Zainovia, Abdul Aziz, Azlan
Format: Journal Article
Language:English
Published: United States Public Library of Science 26-11-2012
Public Library of Science (PLoS)
Subjects:
Analysis
Annealing
Chemical synthesis
Chemistry
Depth indicators
Detection
Emission
Emissions
Heat
Heat treatment
Hydrogen-Ion Concentration
Materials Science
Methods
Mineral resources
Morphology
Nanorods
Nanotubes - chemistry
Nanotubes - ultrastructure
Nitrates
Nitrates - chemistry
Optical properties
Organic chemicals
Oxidation
pH effects
Photovoltaic cells
Preferred orientation
Reaction time
Seeds
Silicon substrates
Solutions - chemistry
Spectrum Analysis, Raman
Surface Properties
Temperature
Thin films
U.V. radiation
Ultraviolet radiation
Ultraviolet Rays
X-Ray Diffraction
Zinc
Zinc Compounds - chemistry
Zinc oxide
Zinc Oxide - chemistry
Zinc oxides
Penang Malaysia
Malaysia
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Summary:In this study, zinc oxide (ZnO) nanorod arrays were synthesized using a simple hydrothermal reaction on ZnO seeds/n-silicon substrate. Several parameters were studied, including the heat-treatment temperature to produce ZnO seeds, zinc nitrate concentration, pH of hydrothermal reaction solution, and hydrothermal reaction time. The optimum heat-treatment temperature to produce uniform nanosized ZnO seeds was 400°C. The nanorod dimensions depended on the hydrothermal reaction parameters. The optimum hydrothermal reaction parameters to produce blunt tip-like nanorods (770 nm long and 80 nm in top diameter) were 0.1 M zinc nitrate, pH 7, and 4 h of growth duration. Phase analysis studies showed that all ZnO nanorods exhibited a strong (002) peak. Thus, the ZnO nanorods grew in a c-axis preferred orientation. A strong ultraviolet (UV) emission peak was observed for ZnO nanorods grown under optimized parameters with a low, deep-level emission peak, which indicated high optical property and crystallinity of the nanorods. The produced ZnO nanorods were also tested for their UV-sensing properties. All samples responded to UV light but with different sensing characteristics. Such different responses could be attributed to the high surface-to-volume ratio of the nanorods that correlated with the final ZnO nanorods morphology formed at different synthesis parameters. The sample grown using optimum synthesis parameters showed the highest responsivity of 0.024 A/W for UV light at 375 nm under a 3 V bias.
Bibliography:Competing Interests: The authors would like to confirm that this research was partly supported by L’Oreal Malaysia in terms of Loreal fellowship award (not research grant/contract research). There are no patents, products in development or marketed products to declare for potential commercialization. Any IP generated through this research only belongs to Universiti Sains Malaysia (NOT Loreal). The paper does not not have conflict of interest with any party including Loreal Malaysia. This does not alter the authors’ adherence to all the PLOS ONE policies on sharing data and materials.
Conceived and designed the experiments: NSR KAR ZL AAA. Performed the experiments: NSR KAR ZL AAA. Analyzed the data: NSR KAR ZL AAA. Contributed reagents/materials/analysis tools: KAR ZL. Wrote the paper: NSR KAR ZL.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0050405