Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition
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Wong, L.Milosavljević, Momir
Lourenco, M. A.
Shao, G.
Valizadeh, R.
Colligon, J. S.
Homewood, Kevin P.
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We report here on the synthesis, optical and structural analysis of amorphous and polycrystalline FeSi(2) fabricated by co-sputter deposition. For comparisons, a range of deposition temperatures from room temperature up to 700 degrees C and post-anneals between 300 and 700 degrees C were performed. Optical absorption measurements were taken on all samples and results reveal that the bandgap remains direct in nature ranging from 0.897 to 0.949 eV. It was found that for amorphous thin films, annealing at low temperatures below 500 degrees C had little effect on the optical properties. The bandgap value and absorption coefficient only significantly increased upon annealing above 500 degrees C. This was found to be in good agreement with the transformation of the silicide from its amorphous phase to its crystalline beta-phase. In comparison, the deposition temperature was seen to affect the crystallinity of the as-deposited thin films and to vary both the optical and structural properties ...of the layers significantly. An increase in the deposition temperature not only decreased the bandgap energies but also significantly increased the photo-absorption by an order of magnitude.
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Semiconductor Science and Technology, 2008, 23, 3
DOI: 10.1088/0268-1242/23/3/035007
ISSN: 0268-1242
WoS: 000254385900007
Scopus: 2-s2.0-42549097532
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VinčaTY - JOUR AU - Wong, L. AU - Milosavljević, Momir AU - Lourenco, M. A. AU - Shao, G. AU - Valizadeh, R. AU - Colligon, J. S. AU - Homewood, Kevin P. PY - 2008 UR - https://vinar.vin.bg.ac.rs/handle/123456789/3392 AB - We report here on the synthesis, optical and structural analysis of amorphous and polycrystalline FeSi(2) fabricated by co-sputter deposition. For comparisons, a range of deposition temperatures from room temperature up to 700 degrees C and post-anneals between 300 and 700 degrees C were performed. Optical absorption measurements were taken on all samples and results reveal that the bandgap remains direct in nature ranging from 0.897 to 0.949 eV. It was found that for amorphous thin films, annealing at low temperatures below 500 degrees C had little effect on the optical properties. The bandgap value and absorption coefficient only significantly increased upon annealing above 500 degrees C. This was found to be in good agreement with the transformation of the silicide from its amorphous phase to its crystalline beta-phase. In comparison, the deposition temperature was seen to affect the crystallinity of the as-deposited thin films and to vary both the optical and structural properties of the layers significantly. An increase in the deposition temperature not only decreased the bandgap energies but also significantly increased the photo-absorption by an order of magnitude. T2 - Semiconductor Science and Technology T1 - Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition VL - 23 IS - 3 DO - 10.1088/0268-1242/23/3/035007 ER -
@article{ author = "Wong, L. and Milosavljević, Momir and Lourenco, M. A. and Shao, G. and Valizadeh, R. and Colligon, J. S. and Homewood, Kevin P.", year = "2008", abstract = "We report here on the synthesis, optical and structural analysis of amorphous and polycrystalline FeSi(2) fabricated by co-sputter deposition. For comparisons, a range of deposition temperatures from room temperature up to 700 degrees C and post-anneals between 300 and 700 degrees C were performed. Optical absorption measurements were taken on all samples and results reveal that the bandgap remains direct in nature ranging from 0.897 to 0.949 eV. It was found that for amorphous thin films, annealing at low temperatures below 500 degrees C had little effect on the optical properties. The bandgap value and absorption coefficient only significantly increased upon annealing above 500 degrees C. This was found to be in good agreement with the transformation of the silicide from its amorphous phase to its crystalline beta-phase. In comparison, the deposition temperature was seen to affect the crystallinity of the as-deposited thin films and to vary both the optical and structural properties of the layers significantly. An increase in the deposition temperature not only decreased the bandgap energies but also significantly increased the photo-absorption by an order of magnitude.", journal = "Semiconductor Science and Technology", title = "Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition", volume = "23", number = "3", doi = "10.1088/0268-1242/23/3/035007" }
Wong, L., Milosavljević, M., Lourenco, M. A., Shao, G., Valizadeh, R., Colligon, J. S.,& Homewood, K. P.. (2008). Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition. in Semiconductor Science and Technology, 23(3). https://doi.org/10.1088/0268-1242/23/3/035007
Wong L, Milosavljević M, Lourenco MA, Shao G, Valizadeh R, Colligon JS, Homewood KP. Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition. in Semiconductor Science and Technology. 2008;23(3). doi:10.1088/0268-1242/23/3/035007 .
Wong, L., Milosavljević, Momir, Lourenco, M. A., Shao, G., Valizadeh, R., Colligon, J. S., Homewood, Kevin P., "Annealing and deposition temperature dependence of the bandgap of amorphous FeSi(2) fabricated by co-sputter deposition" in Semiconductor Science and Technology, 23, no. 3 (2008), https://doi.org/10.1088/0268-1242/23/3/035007 . .