Role of pO2 and film microstructure on the memristive properties of La2NiO4+δ/LaNiO3−δ bilayers

Klaasjan Maas; Chloé Wulles; Jose Manuel Caicedo Roque; Belén Ballesteros; Valentin Lafarge; José Santiso; Mónica Burriel

Journal ArticleOPEN ACCESS

Role of pO2 and film microstructure on the memristive properties of La2NiO4+δ/LaNiO3−δ bilayers

Journal of Materials Chemistry A (2022) 10(12) 6523-6530

DOI: 10.1039/d1ta10296f

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Abstract

LaNiO3/La2NiO4 bilayers deposited at varying pO2 conditions resulted in remarkable differences in film microstructure and cell parameters, directly affecting the electrical behaviour of Pt/LaNiO3/La2NiO4/Pt devices. The devices deposited at low pO2 showed the largest memristance. We propose this is due to the formation of a p-type Schottky contact between LaNiO3 and La2NiO4, where the extent of its carrier depletion width can be modulated by the electric-field induced drift of interstitial oxygen ions acting as mobile acceptor dopants in La2NiO4

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Maas, K., Wulles, C., Caicedo Roque, J. M., Ballesteros, B., Lafarge, V., Santiso, J., & Burriel, M. (2022). Role of pO2 and film microstructure on the memristive properties of La2NiO4+δ/LaNiO3−δ bilayers. Journal of Materials Chemistry A, 10(12), 6523–6530. https://doi.org/10.1039/d1ta10296f

Role of pO2 and film microstructure on the memristive properties of La2NiO4+δ/LaNiO3−δ bilayers

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