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Electronic and Chemical Properties of Nickel Oxide Thin Films and the Intrinsic Defects Compensation Mechanism

Raphaël Poulain, Gunnar Lumbeeck, Jonas Hunka, Joris Proost, Henri Savolainen, Hosni Idrissi, D. Schryvers, Nicolas Gauquelin, Andreas Klein

2022ACS Applied Electronic Materials34 citationsDOIOpen Access PDF

Abstract

Although largely studied, contradictory results on nickel oxide (NiO) properties can be found in the literature. We herein propose a comprehensive study that aims at leveling contradictions related to NiO materials with a focus on its conductivity, surface properties, and the intrinsic charge defects compensation mechanism with regards to the conditions preparation. The experiments were performed by in situ photoelectron spectroscopy, electron energy loss spectroscopy, and optical as well as electrical measurements on polycrystalline NiO thin films prepared under various preparation conditions by reactive sputtering. The results show that surface and bulk properties were strongly related to the deposition temperature with in particular the observation of Fermi level pinning, high work function, and unstable oxygen-rich grain boundaries for the thin films produced at room temperature but not at high temperature (>200 °C). Finally, this study provides substantial information about surface and bulk NiO properties enabling to unveil the origin of the high electrical conductivity of room temperature NiO thin films and also for supporting a general electronic charge compensation mechanism of intrinsic defects according to the deposition temperature.

Topics & Concepts

Non-blocking I/OMaterials scienceThin filmX-ray photoelectron spectroscopyNickel oxideGrain boundaryCrystalliteSputteringWork functionNickelChemical engineeringNanotechnologyComposite materialMetallurgyMicrostructureMetalChemistryEngineeringBiochemistryCatalysisTransition Metal Oxide NanomaterialsZnO doping and propertiesGa2O3 and related materials