C. Aparna scite author profile

This article aims to study the modification in the structural, optical and electrical properties of indium oxide thin film after gamma irradiation and estimation of sensitivity for gamma sensing applications. The thin film of indium oxide was deposited on a 450 °C preheated glass substrate using the spray pyrolysis technique. The deposited thin film of molar concentration 0.15 M and thickness of around 600 nm was irradiated with different gamma doses (100 Gy, 200 Gy, 300 Gy and 400 Gy). The optical properties of the irradiated film are studied using UV–Visible spectroscopy. Transmittance increased after irradiation up to 200 Gy and beyond that, it decreased. Indium oxide is an n-type semiconductor which exhibits both direct and indirect transitions. Both direct and indirect bandgap energy are calculated using Tauc’s plot. Extinction coefficient and refractive index variation with irradiation were also estimated. Photoluminescence study confirmed the gamma-induced defect formation and annihilation for an irradiation dose of 400 Gy and 200 Gy, respectively. Resistivity also decreased up to 200 Gy and beyond that, it increased. The sensitivity of the deposited film was estimated from the electrical measurements, and it lies between 10.7 and 53.4 mA/cm2/Gy. Graphical abstract

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A brief review on the techniques used for the enhancement of luminescence of red emitting thin film

Vini

Aparna

Nissamudeen

2020

Eur. Phys. J. Appl. Phys.

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In the past few years, red emitting thin film activated by Eu3+ has received much attention. Europium has a peculiar property that it exhibits both types of emission on the basis of their valencies. In this review, we try to make a full list of known methods which may be useful for the enhancement of luminescence. It has been found that luminescence can be enhanced by increasing substrate temperature, film roughness, changing the morphology etc. Finally we discuss the mechanism of co-doping with different elements for the enhancement of luminescence.

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Investigation on structural, optical and electrical properties of Zn doped indium oxide thin film for gamma dosimetry

Aparna

Shetty

Mahesha

2023

Materials Chemistry and Physics

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C. Aparna

Structural and optical properties of indium oxide thin films synthesized at different deposition parameters by spray pyrolysis

Temperature dependence of optical and electrical properties of gamma-irradiated indium oxide thin film

Sensitivity estimation of indium oxide thin film for gamma sensing

A brief review on the techniques used for the enhancement of luminescence of red emitting thin film

Investigation on structural, optical and electrical properties of Zn doped indium oxide thin film for gamma dosimetry

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