N. El-Kadry scite author profile

Tungsten oxide films of thicknesses 1095 nm have been cathodically deposited onto ITO coated glass substrates kept at room temperature, at a rate of 13 nm/min. The electrolyte solution has been prepared by adding 0.025 M tungsten (dissolved in 30% H2O2) to 0.25 M H2SO4. XRD observations showed that all films are amorphous. The film resistivity at room temperature was found to be 9 × 106 Ω cm, and from the resistivity–temperature dependence, the thermal activation energy was obtained as 0.29 eV. The refractive index, n, and the extinction coefficient, k, have been computed from the corrected transmittance and reflectance over the spectral range 400 to 800 nm. Absorption versus photon energy curves give an indirect transition with optical energy gap of 3.25 and 3.36 eV for the as‐deposited and coloured states, respectively. The electrochromic properties of the prepared films have been investigated in situ and both solar transmittance and optical density have been evaluated in the coloured and bleached states. The electrochemical coloration and bleaching were performed in an electrolyte of 0.4 M H2SO4 solution. The coloration efficiency has been evaluated as 50 cm2/C at λ = 600 nm, which is comparable with the results obtained from films prepared by other methods.

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Effect of deposition parameters on the optical absorption in thermally evaporated cadmium telluride thin films

El-Kadry

Ahmed

hady

1996

Thin Solid Films

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Variation of optical constants of cadmium telluride thin films with deposition conditions

El-Kadry¹,

Ashour²,

Ahmed³

et al. 1995

Thin Solid Films

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N. El-Kadry

On the electrical and optical properties of CdS films thermally deposited by a modified source

Structural dependence of d.c. electrical properties of physically deposited CdTe thin films

Preparation and Properties of Electrochemically Deposited Tungsten Oxide Films

Effect of deposition parameters on the optical absorption in thermally evaporated cadmium telluride thin films

Variation of optical constants of cadmium telluride thin films with deposition conditions

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