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Novel Hydrothermal Synthesis of Flower Like ZnO Nanostructures and Investigation of their Gas – Sensing Properties

V. S. SirilK. N. Madhusoodanan

Year: 2023 Pages: 100-112
DOI: 10.9734/bpi/rpst/v5/9491f
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Abstract

Flower like nanostructures of ZnO have been successfully fabricated by a novel hydrothermal technique. Various sample characterization methods, including XRD, FESEM, SEM, TEM, have been employed. The synthesised ZnO samples exhibited a well defined crystal structure of hexagonal phase. The average crystallite size for ZnO sensors was estimated to be 31 nm. The flower shaped nanorods were \(\sim\)84 nm in diameter and \(\sim\) 1 µm in length. The response to the reducing gas NH3 was evaluated in terms of the operating temperature, sensitivity, response time/ recovery time of the ZnO-based gas sensor. At a working temperature of \(230^{\circ}\)C, the lowest detection limit for ammonia gas was found to be 5 ppm.

Keywords:
Nanorod Hydrothermal circulation Crystallite Materials science Hexagonal phase Nanostructure Hexagonal crystal system Hydrothermal synthesis Ammonia gas Nanotechnology Ammonia Detection limit Characterization (materials science) Chemical engineering Analytical Chemistry (journal) Crystallography Chemistry Chromatography Metallurgy Organic chemistry

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Topics

Gas Sensing Nanomaterials and Sensors
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
ZnO doping and properties
Physical Sciences →  Materials Science →  Materials Chemistry
Mercury impact and mitigation studies
Physical Sciences →  Environmental Science →  Health, Toxicology and Mutagenesis

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