Structural and optical properties of amorphous oxygenated iron boron nitride thin films produced by reactive co-sputtering |
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Authors: | A. Essafti A. Abouelaoualim E. Ech-chamikh |
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Affiliation: | a Laboratoire de Physique des Solides et des Couches Minces, Département de Physique, Faculté des Sciences-Semlalia, Université Cadi Ayyad, B.P. 2390, 40000 Marrakech, Morocco b Institute of Catalysis and Petrochemistry, CSIC, Cantoblanco, 28049 Madrid, Spain |
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Abstract: | Amorphous oxygenated iron boron nitride (a-FeBN:O) thin films were prepared by reactive radio-frequency (RF) sputtering, from hexagonal boron nitride chips placed on iron target, under a total pressure of a gas mixture of argon and oxygen maintained at 1 Pa. The films were deposited onto silicon and glass substrates, at room temperature. The power of the generator RF was varied from 150 to 350 W. The chemical and structural analyses were investigated using X-ray photoelectron spectroscopy (XPS), energy dispersive of X-ray and X-ray reflectometry (XRR). The optical properties of the films were obtained from the optical transmittance and reflectance measurements in the ultraviolet-visible-near infrared wavelengths range. XPS reveals the presence of boron, nitrogen, iron and oxygen atoms and also the formation of different chemical bonds such as Fe-O, B-N, B-O and the ternary BNO phase. This latter phase is predominant in the deposited films as observed in the B 1s and N 1s core level spectra. As the RF power increases, the contribution of N-B bonds in the as-deposited films decreases. The XRR results show that the mass density of a-FeBN:O thin films increases from 2.6 to 4.12 g/cm3 with increasing the RF power from 150 to 350 W. This behavior is more important for films deposited at RF power higher than 150 W, and has been associated with the enhancement of iron atoms in the film structure. The optical band gap decreases from 3.74 to 3.12 eV with increasing the RF power from 150 to 350 W. |
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Keywords: | Amorphous thin films Boron nitride Co-sputtering Spectroscopy characterization X-ray reflectometry Optical properties |
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