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On the frequency and (ZnCdNiTiO2) nanocomposite interlayer effects on electrical parameters and conduction mechanism in Al/(ZnCdNiTiO2)/p–Si (MIS) structures

K. Yıldız, Seçkin Altındal Yerişkin, Sabreen A. Hameed, Esra Erbilen Tanrıkulu, F. Yakuphanoğlu

2025Journal of Materials Science Materials in Electronics5 citationsDOI

Topics & Concepts

Materials scienceThermal conductionEquivalent series resistanceSchottky diodeCapacitanceDiodeSemiconductorConductanceElectrical resistivity and conductivityLow frequencyBand gapElectrical resistance and conductanceVoltageDepletion regionOptoelectronicsNanocompositeSchottky barrierElectrical conductorConductivityRange (aeronautics)Condensed matter physicsFrequency dependenceCutoff frequencyComposite materialDopingWide-bandgap semiconductorBiasingFrequency responseSemiconductor materials and interfacesDielectric properties of ceramicsIntermetallics and Advanced Alloy Properties
On the frequency and (ZnCdNiTiO2) nanocomposite interlayer effects on electrical parameters and conduction mechanism in Al/(ZnCdNiTiO2)/p–Si (MIS) structures | Litcius