Study of electronic and optical response of Zn-CeO₂ using first principle and experimental investigations

Abstract: Ceria (CeO2) is an important material mainly for microelectronic and fuel-cell applications due to having high dielectric constant and good catalytic properties. The first principle and experimental investigations were carried out to study the effect of Zn incorporation on the electronic and optical response of CeO2. Density of states spectra depict the prominent hybridization of Ce-f and O-p states while band structure reveals the decrease in bandgap with the incorporation of metallic Zn content in ceria stru… Show more

“…It tells about the optoelectronic response of a material when light passes through the material as it depends strongly on the bending of light from the surface of a material. When electromagnetic radiation penetrates a material, its velocity is reduced and which increases the value of refractive [42]. Mathematically, the refractive index can be determined as;…”

“…It strongly depends upon the surface morphology of the material, polarization, and angle of incidence of the incoming light. Theoretically, reflectivity can be calculated by using the following mathematical relation [42].…”

Influence of Vanadium substitution on electronic, thermoelectric and optical response of Cu₂O

“…It tells about the optoelectronic response of a material when light passes through the material as it depends strongly on the bending of light from the surface of a material. When electromagnetic radiation penetrates a material, its velocity is reduced and which increases the value of refractive [42]. Mathematically, the refractive index can be determined as;…”

“…It strongly depends upon the surface morphology of the material, polarization, and angle of incidence of the incoming light. Theoretically, reflectivity can be calculated by using the following mathematical relation [42].…”

Influence of Vanadium substitution on electronic, thermoelectric and optical response of Cu₂O

Study of epsilon-near-zero response in Al substituted titanium oxynitride thin films using computational and experimental investigations

First principle and experimental study on AlxMg1-xO compound thin films for electronic, optical, and antibacterial activity