Browsing by Author "Balogun, S. W., Sanusi. Y. K. and Adebayo O. A."
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- ItemImpact of Post- Deposition Heat Treatment on the Morphology and Optical Properties of Zinc Oxide (ZnO) Thin Film Prepared by Spin-Coating Technique.(Journal of Photonic Materials and Technology. 3 (3): 20-28, 2017) Balogun, S. W., Sanusi. Y. K. and Adebayo O. A.
- ItemOptical and structural performance of polymer/fullerene thin film based on Poly (3-hexylthiophene)/1-(3methoxycarbonyl) propyl-1-phenyl [6,6]C61 [(P3HT)/PCBM] after post-annealing.(International Journal of Physical Sciences. 13(10): 174-182., 2018) Balogun, S. W., Sanusi. Y. K. and Adebayo O. A.
- ItemStructural and optical properties of titanium dioxide thin film deposited by spin-coating technique(International Journal of Development Research. 8 (1): 18486-18490, 2018) Balogun, S. W., Sanusi. Y. K. and Adebayo O. A.This research investigate the effects of thermal annealing on the optical, morpholigical and structural properties of Tio2 thin film. Tio2 was deposited on glass substrate by spin - coating technique using spin - coater model laurel WS-650Hz-23NPP, surface morphology of thin film was studied using Scanning Electron Microscope (SEM) model ASPEX 3020. the optical absorbance and transmittance measurements were recorded by using a single beam spectrophotometer Avantes model Avalight-DH-5-BAL. After annealing at different temperature for one hour from 100C to 500C with vcarbolite tubular oven model Srw 21-501042 Type CT1, the mophorlogy, optical properties of TiO2 thin film were obtained. Observation showed that as the annealing temperature increases, there is increase in absorption of photon energy and as the wavelength increases and decreases with increases in annealing temperature. SEM reveal as annealing temperature increases, the grain size of Tio2 gradually increases. the energy gap was observed and determined, the band gap energy decreases from 3.3 eV to 3.05eV as the annealing temperature increases. the impact of heat treatment of TiO2 thin-film on the microstructure, surface roughness, photon absorption, and the band gap energy was obtained