Litcius/Paper detail

Multiferroic CoFe<sub>2</sub>O<sub>4</sub>–Ba<sub>0.95</sub>Ca<sub>0.05</sub>Ti<sub>0.89</sub>Sn<sub>0.11</sub>O<sub>3</sub> Core–Shell Nanofibers for Magnetic Field Sensor Applications

Youness Hadouch, D. Mezzane, M. Amjoud, V. V. Laguta, K. Hoummada, Voicu Dolocan, Mustapha Jouiad, Mohammed Lahcini, Hana Uršič, Val Fišinger, Nikola Novak, Zdravko Kutnjak, Y. Gagou, Igor Lukyanchuk, M. El Marssi

2023ACS Applied Nano Materials10 citationsDOI

Abstract

Multiferroic materials with coexisting of at least two ferroic orders (ferromagnetic, ferroelectric, or ferroelastic) have recently attracted the interest of researchers due to their potential applications as multifunctional devices. Herein, we report the synthesis and detailed characterization of the multiferroic CoFe 2 O 4 –Ba 0.95 Ca 0.05 Ti 0.89 Sn 0.11 O 3 core–shell nanofibers (CFO@BCTSn NFs) prepared by a sol–gel coaxial electrospinning technique. The scanning and transmission electron microscopes were used to check nanofibers’ core–shell structure/configuration, with fiber diameters ranging from 150 to 250 nm. The X-ray diffraction analysis confirms the presence of both the spinel structure of the CFO and the perovskite structure of the BCTSn. Piezoresponse force microscopy and magnetic hysteresis were used to confirm the multiferroicity of CFO@BCTSn NFs. Notably, the maximum magnetization and remanent magnetization of NFs are found to be 11.63 emu g –1 and 1.43 emu g –1, respectively. Meanwhile, the maximum piezoelectric response d 33 eff is around 6 pm V –1 . The magnetoelectric (ME) coefficient obtained for the CFO@BCTSn NFs is 346 mV cm –1 Oe –1 at the field of 10 kG. These findings may lead to development of nanoscale Pb-free magnetic field sensors and magnetoelectric device applications.

Topics & Concepts

MultiferroicsMaterials scienceFerroelectricityMagnetizationPiezoresponse force microscopyHysteresisFerromagnetismMagnetic hysteresisTransmission electron microscopyRemanenceNanotechnologyPiezoelectricityCondensed matter physicsMagnetic fieldComposite materialOptoelectronicsDielectricPhysicsQuantum mechanicsMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsMagnetic and transport properties of perovskites and related materials