Journal Name:
Optik
Volume:
156
Issue:
22
Pages From:
93
To:
98
Date:
الخميس, مارس 1, 2018
Abstract:
In this work, an indium layer of 50 nm thicknesses is sandwiched between two 500 nm thick
Ga2S3 layers. The effect of indium nansandwiching on the composition, structure, morphology,
light absorbability, capacitance and reactance spectra, and temperature dependent
electrical conductivity of the Ga2S3 films are investigated by means of X-ray diffraction,
scanning electron microscopy, energy dispersion X-ray spectroscopy, Raman spectroscopy,
visible light spectrophotometry, impedance spectroscopy and current voltage characteristics.
While the nansandwiched films are observed to exhibit an amorphous nature of
structure with indium content of Owing to the nucleation mechanisms that take place during
the film growth, the accumulation of some unit cells in groups to form grains should
be a significant reason for the existence of many different sizes of grains in the nanosandwiched
films (Alharbi and Qasrawi, 2016). O, the Raman spectra displayed three vibrational
modes at 127.7, 145.0 and 274.3 cm−1. It was also observed that the indium insertion in the
structure of the Ga2S3 shrinks the energy band gap by 0.18 eV. The nanosandwiched films
are observed to exhibit a semiconductor
−metal (SM) transition at 310 K. The SM transition
is associated with thermal hysteresis that exhibited a maximum value of 16% at 352 K. This
behavior of the nanosandwiched films nominate it for use as thermally controlled electric
switches. In addition, the impedance spectral analysis in the range of 10–1800 MHz has
shown a capacitance tunability of more than 70%. The measurements of the wave trapping
property displayed a bandpass/reject filter characteristics above 1.0 GHz which allow using
the Ga2S3/In/Ga2S3 thin films as microwave resonator.