| Autor: |
Marzuki, Marina, Zamzuri, Mohd, Zain, Mohamad, Zarul, Nurazhra, Zainon, Nooraizedfiza, Harun, Azmi, Nani, Rozie |
| Zdroj: |
IOP Conference Series: Materials Science and Engineering; March 2018, Vol. 318 Issue: 1 p012060-012060, 1p |
| Abstrakt: |
This study approached the simple method of developing CuO thin films by thermal oxidation on pure Cu sheets. The effects of annealing temperature on the formation of CuO layers have been investigated. The oxide layers have been fabricated by annealing of Cu sheets for 5 hours at different temperatures of 980 ~ 1010 degC. The morphologies and optical properties of annealed Cu sheets were studied by using SEM and UV-Vis spectrophotometer respectively. It is revealed that the annealing temperature influence the grain growth and the grain size increases as the temperature increase. The highest grain size was observed on sample annealed at 1000 degC; with average area per grain size of 0.023 mm2. Theoretically, larger grain size provides less barriers for electron mobility and increase the efficiency of solar devices. The optical absorption spectra of the oxide films was also measured. Interference pattern was noted at wavelength about 900 nm corresponding to the formation of CuO film. The interference noise observed could be due to the coarse surface and the presence of powdery oxide deposits that causes the scattering loses from the surface. CuO film obtained by this method may be further studied and exploited as low cost photovoltaic device. |
| Databáze: |
Supplemental Index |
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