Aqueous Solutions for Low-Temperature Photoannealing of Functional Oxide Films: Reaching the 400 °C Si-Technology Integration Barrier - Concepedia

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Aqueous Solutions for Low-Temperature Photoannealing of Functional Oxide Films: Reaching the 400 °C Si-Technology Integration Barrier

DOI Full Paper Access

35

Citations

24

References

2011

Year

Christopher De Dobbelaere, M. L. Calzada, Ricardo Jiménez, J. Ricote, Íñigo Bretos, J. Mullens, An Hardy, Marlies K. Van Bael

Journal of the American Chemical Society

EngineeringPhoto-electrochemical CellPhotoelectrochemistryPerovskite ModuleUv-assisted Annealing ProcessMultiferroicsFerroelectric ApplicationFunctional Oxide FilmsLow-temperature PhotoannealingThin Film ProcessingMaterials ScienceMaterials EngineeringOxide HeterostructuresInorganic ElectronicsFunctional Multimetal OxidesOxide ElectronicsOxide SemiconductorsPerovskite MaterialsMultiferroic BifeoAqueous SolutionsLead-free PerovskitesApplied PhysicsThin FilmsFunctional Materials

Abstract

Functional oxide films were obtained at low temperature by combination of aqueous precursors and a UV-assisted annealing process (aqueous photochemical solution deposition). For a PbTiO(3) model system, functional ferroelectric perovskite films were prepared at only 400 °C, a temperature compatible with the current Si-technology demands. Intrinsically photosensitive and environmentally friendly aqueous precursors can be prepared for most of the functional multimetal oxides, as additionally demonstrated here for multiferroic BiFeO(3), yielding virtually unlimited possibilities for this low-temperature fabrication technology.

References

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