Effect of doping with cobalt on the structure and optical properties of zinc oxide thin films prepared by sol-gel method

Abstract: In this study, pure zinc oxide films doped with cobalt percentage of 3% were prepared using Sol- spin coating technique on glass substrate at a temperature of 100 degrees Celsius. The structural and optical properties of these films have been studied. Structure properties are obtained by using X-ray diffraction (XRD) technique, they were carried out using a device of type (Panalytical X 'Pert pro) with a target of type (Cu Kα) and a wavelength of (λ = 1.541 Ao). The diagnostic results showed that these films a… Show more

“…Furthermore, the real part of the relative permittivity (ϵ r = n 2 + K 2 ; n is the refractive index and K is the extinction coefficient), and its imaginary part (ϵ i = 2 nK ) of the E478 epoxy resin are obtained after measuring K and n from the equations: K = α λ 4 π n = ( 1 + R 1 − R ) 2 − ( K 2 + 1 ) + 1 + R 1 − R In this study, a JASCO V-770 double-beam UV/VIS/NIR Spectrophotometer from JASCO Corporation (Tokyo, Japan) was used to obtain the T (λ) % and R (λ) % values. The instrument is supplied with a deuterium and wolfram-halogen lamp, and the tested wavelength range was 200–800 nm.…”

Comprehensive Analysis of E478 Single-Component Epoxy Resin and Tungsten-E478 Interface for Metallic-Polymer Composite Electron Source Applications

“…Furthermore, the real part of the relative permittivity (ϵ r = n 2 + K 2 ; n is the refractive index and K is the extinction coefficient), and its imaginary part (ϵ i = 2 nK ) of the E478 epoxy resin are obtained after measuring K and n from the equations: K = α λ 4 π n = ( 1 + R 1 − R ) 2 − ( K 2 + 1 ) + 1 + R 1 − R In this study, a JASCO V-770 double-beam UV/VIS/NIR Spectrophotometer from JASCO Corporation (Tokyo, Japan) was used to obtain the T (λ) % and R (λ) % values. The instrument is supplied with a deuterium and wolfram-halogen lamp, and the tested wavelength range was 200–800 nm.…”

Comprehensive Analysis of E478 Single-Component Epoxy Resin and Tungsten-E478 Interface for Metallic-Polymer Composite Electron Source Applications