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| Naji, M. |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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| Rignanese, Gian-Marco |
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Bhatnagar, Akash
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2022Resistive switching in ferroelectric Bi2FeCrO6 thin films and impact on the photovoltaic effect
- 2022Control of Layering in Aurivillius Phase Nanocomposite Thin Films and Influence on Ferromagnetism and Optical Absorptioncitations
- 2021Strongly enhanced and tunable photovoltaic effect in ferroelectric-paraelectric superlattices
- 2021Anomalous circular bulk photovoltaic effect in BiFeO3 thin films with stripe-domain pattern
- 2020Impact of Samarium on the growth of epitaxial Bismuth ferrite thin films
- 2020Impact of Samarium on the Growth of Epitaxial Bismuth Ferrite Thin Filmscitations
- 2020Nanocomposites with Three-Dimensional Architecture and Impact on Photovoltaic Effectcitations
- 2016Surface passivation of semiconducting oxides by self-assembled nanoparticlescitations
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article
Control of Layering in Aurivillius Phase Nanocomposite Thin Films and Influence on Ferromagnetism and Optical Absorption
Abstract
Layered structures in complex oxide systems, reminiscent of superlattices, albeit naturally occurring, are often considered superior than their respective rudimentary forms. The enhanced functionalities related to the ferroic character have been known for a while now, and the enhanced photoelectrical properties have been only very recently demonstrated. Despite the improved performance, synthesis of such structures with precise control remains to be a bottleneck. In this work, this issue is addressed with a perovskite phase target of (PbTiO3)0.65(BiNi2/3Nb1/3O3)0.35. The deposition parameters are shown to have a deterministic control over the phase of the resultant thin film, that is, a layered Aurivillius phase or a perovskite phase. The resultant layered phase is demonstrated to have superior ferroic properties, in addition to an improved light absorption in the visible regime, thus making it an attractive photoferroic system. The authors thank K. Dörr and D. Rata for the X-ray measurements, M. Lisca for the technical support, and B. Fuhrmann and S. Schlenker for their support with the facilities at the Interdisziplinäre Zentrum für Materialwissenschaften (IZM). Financial support from Deutsche Forschungsgemeinschaft (DFG) via Sonderforschungsbereiche (SFB) 762 (project A12), Bundesministerium für Bildung und Forschung (BMBF) project no. 03Z22HN12, and Europäischer Fonds für regionale Entwicklung (EFRE) Sachsen-Anhalt is gratefully acknowledged. With funding from the Spanish government through the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000917-S). Peer reviewed