Author:
Salih A. A., ,Ali H. M.,Athab R. H.,Hussein B. H., , ,
Abstract
Barium oxide was made in this work using an easy and affordable chemical technique. FTIR, AFM UV-visible, and X-ray diffraction (XRD) are used to describe the produced samples. The tetragonal phase of BaO nanoparticles with an average crystallite size of 46.5 nm was verified by X-ray diffraction experiments. The particle size was determined to be between 40 and 201 nm using the AFM micrograph. It was discovered that the BaO nanoparticles optical band gap was 4.6 eV. The sample's presence of Ba-O vibration was detected by FTIR spectra. Regarding the Operation of (Ag/BaO/Si/Ag), photodetector studied the effect of changing the molar concentration (M) for barium oxide (1M, 0.5M and 0.25M). The properties of the applied photodetector were studied, by the responsivity (Rλ) of all photodetectors. The higher responsivity was about 0.18A/W, the Specific Detectivity (D*) was 2.5 × 1012 and Quantum Efficiency (η) 49% at 0.5M for wavelength 450nm.
Publisher
Virtual Company of Physics
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