ELABORATION AND CHARACTERIZATION OF ZNO NANOSTRUCTURE THIN LAYERS
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Date
2018-02-05
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University of Eloued جامعة الوادي
Abstract
ZnO thin films have been deposited onto the glass substrates by chemical spray pyrolysis
technique at 500°C. The effect of precursor molarity and crystallite size on structural, optical
and electrical properties has been studied. The XRD lines of the deposited ZnO were
enhanced with increasing precursor molarity due to the improvement of the layers
crystallinity. It was shown that the average of the crystallite size of the deposited thin layers
was calculated using Debye–Scherrer formula and found in the range between 30 and 95 nm.
A strong c-axis preferred orientation is observed for all of the samples. As the growth
temperature increases, the crystallite orientation of the ZnO (002) plane is not changed, but
the full width at half maximum gets smaller. The optical properties have been discussed in
this work. The transmittance (T) and the absorbance (A) were measured and calculated. Band
gap energy is considered one of the most important optical parameter, therefore measured and
found ranging 3.285 eV. The increase of the electrical conductivity to maximum value of
0.0695 (Ω cm)−1 can be explained by the increase in carrier concentration of the films. A good
electrical conductivity of the ZnO thin film is obtained due to the electrically low sheet
resistance. ZnO can be applied in different electronic and optoelectronic applications due to
its band gap, high transparency and good electrical conductivity.
Description
Séminaire National Sur Laser Solaire Et Matériaux ElOeued 5-6 Février 2018
Keywords
Thin films ZnO; Optical properties; DRX; Electrical properties