2021-11-292021-11-292009-11-13Taysioğlu, A. A. vd. (2009). "GMI effect in CuO coated Co-based amorphous ribbons". Journal of Alloys and Compounds, 487(1-2), 38-41.09258388https://doi.org/10.1016/j.jallcom.2009.08.041https://www.sciencedirect.com/science/article/pii/S0925838809016004http://hdl.handle.net/11452/22850A Copper oxide (CuO) film has been grown on a surface of Co-based amorphous ribbon using chemical successive ionic layer adsorption and reaction technique, at room temperature and atmosphere pressure. The influence of coating and width of ribbon on giant magneto impedance have been investigated over a frequency range from 0.1 to 3 MHz and under a static magnetic field between -8 and +8 kA/m. The results showed that Co-based amorphous ribbons, which are coated CuO film, have a significant effect on the magnitude and operation frequency for the giant magneto impedance effect as compared to the samples without coating. The highest giant magneto impedance effect was found to be 14.90 on 5 mm width coated ribbon, which is 60% higher than the sample without coating. A surface observation of these samples has been carried out by an atomic force microscope. The AFM images reveal the difference between surfaces of coated and as-cast sample.eninfo:eu-repo/semantics/closedAccessAmorphous ribbonsAtomic force microscope (AFM)Chemical silar techniqueGMI effectSurface analysisAdsorptionAtomic force microscopyAtomsCoatingsCobaltCopper oxidesElectric impedanceMagnetic fieldsMagnetosMicroscopesSurface analysisAFM imageAmorphous ribbonAmorphous ribbonsAs-castAtmosphere pressureAtomic force microscope (AFM)Atomic force microscopesFrequency rangesGiant magneto impedanceGiant magneto impedance effectGMI effectGMI effectsOperation frequencyRoom temperatureStatic magnetic fieldsSuccessive ionic layer adsorption and reactionsSurface observationAmorphous filmsIonic layer adsorptionReaction silar methodFilmsWiresChemistryMaterials scienceMetallurgy & metallurgical engineeringArticle0002725219000162-s2.0-7035061963938414871-2Chemistry, physicalMaterials science, multidisciplinaryMetallurgy & metallurgical engineeringMagnetic Sensors; Domain Walls; Ribbons