Influence of oxide layer coating on giant magneto-impedance response in amorphous ribbons
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Date
2013-01
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Amer Scientific Publishers
Abstract
Cobalt-rich amorphous ribbon (Fe5.85Co72.15Mo2B15Si5) 13 mm in length and 5 mm in width were coated with different oxide layers in order to improve their GMI response. The coating process was performed using a chemical Successive Ionic Layer Adsorption and Reaction (SILAR) technique at room temperature. Oxide layer coated ribbons were imaged by an Atomic Force Microscopy (AFM). The variations in oxide layers and their roughness were studied to elucidate the cause of the improvements in GMI ratios in amorphous ribbons.
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Keywords
Chemistry, Electrochemistry, Instruments & instrumentation, Physics, Amorphous magnetic materials, Giant magneto impedance effect, Coating effect, Atomic force microscopy, Thin-films, Zns, Gmi, Amorphous silicon, Atomic force microscopy, Coatings, Magnetic materials, Amorphous magnetic materials, Amorphous ribbon, Coating process, Giant magneto impedance effect, Giant magneto-impedance, Oxide layer coatings, Room temperature, Successive ionic layer adsorption and reactions, Molybdenum oxide
Citation
Taysioglu, A. A. vd. (2013). “Influence of oxide layer coating on giant magneto-impedance response in amorphous ribbons”. Sensor Letters, 11(1), Special Issue, 119-121.