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Multilayer Ceramic Magnetoelectric Composites with Tailored Interfaces for Enhanced Response.

Harvey AmorínJesus RicoteIván San-FelipeNorberto SalazarRubén Del CampoYonny Romaguera-BarcelayJavier Pérez de la CruzPablo RamosEladio VilaAlicia CastroMiguel Algueró
Published in: ACS applied materials & interfaces (2017)
Composite materials consisting of two dissimilar ferroic phases are an excellent alternative to single-phase multiferroics for a wide range of magnetoelectric technologies. In composites with strain-mediated magnetoelectric coupling the response is strongly dependent on the characteristics of the interface between the two mechanically coupled phases. Among the different material approaches considered, cofired ceramic composites offer improved reliability in applications and are more adequate for free-forming and miniaturization. However, their magnetoelectric response often suffers from poor reproducibility, which has been reiteratively associated with the quality of the interfaces with little experimental support. Here, we report an in-depth study of the local material properties across the interfaces of 0.36BiScO3-0.64PbTiO3/NiFe2O4 multilayer ceramic composites, processed by spark plasma sintering of nanocrystalline powders. Tailored microstructures and low residual stress levels were obtained by adjusting the sintering mismatch between the two ferroic phases, which also resulted in fully functional interfaces and enhanced magnetoelectric responses.
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