Publication: Ultrasonically sprayed cobalt oxide thin films: Enhancing of some physical properties by nickel doping
Date
Authors
Kuş, Esra
Authors
Küçükarslan, Ayşe
Demirselçuk, Barbaros
Sarıca, Emrah
Akyüz, İdris
Bilgin, Vildan
Advisor
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Elsevier
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Abstract
In this study, the effect of Ni doping (3, 6, 9 at%) on structural, optical, electrical and magnetic properties of Co3O4 films was reported. Films were grown at 300 +/- 5 degrees C substrate temperature via ultrasonic spray pyrolysis (USP) technique. The structural analyses showed that undoped and Ni (3%) doped films exhibit an amorphous structure. Ni doping at higher ratios caused the films to have improved crystallinity. Optical band gap values the films were found to be between 2.03 and 2.08 eV with an additional sub band corresponding to energies varying between 1.35 and 1.46 eV. The electrical conductivity values of the films increased significantly depending on the Ni doping. The hysteresis curves of the films showed that the films have weak ferromagnetic properties. Ni doping significantly improved the structural and electrical properties of Co3O4 films making them suitable materials for technological applications. (c) 2021 Elsevier B.V. All rights reserved.
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Keywords
Cobalt compounds, Crystallinity, Energy gap, Magnetic materials, Magnetism, Nickel oxide, Oxide films, Semiconductor doping, Structural properties, Thin films, Ultrasonic applications, Co$-3$/o$-4$, Cobalt oxides, Cobalt-nickel, Ni-doping, Nickel doping, Optical and electrical properties, Optical, Oxide thin films, Property, Structural, Cobalt nickel oxide, Spray pyrolysis, Co3o4, Precursor, Materials science, Physics
Citation
Kuş, E. vd. (2021). "Ultrasonically sprayed cobalt oxide thin films: Enhancing of some physical properties by nickel doping". Materials Letters, 297.