posted on 2024-10-23, 14:28authored byJunsok Choi, Ki Tae Nam, Eun-Ho Sohn, Yongsok Seo
The magnetoelectric (ME) effect, which involves the interaction
of magnetic and electric fields within a material, has a significant
potential for various applications. Our study addresses the limitations
of conventional magnetostriction-based ME materials by demonstrating
an alternative approach that achieves substantial ME effects in core–shell-type
nanocomposites at room temperature. By synthesizing ferrimagnetic
Fe3O4 nanoparticles onto piezoelectric poly(vinylidene
fluoride) (PVDF) particles, we identified a distinct ME mechanism.
In magnetorheological (MR) fluids, the magnetic-field-induced aggregation
of Fe3O4 nanoparticles, combined with the piezoelectricity
of PVDF, leads to a pronounced ME effect, significantly enhancing
the performance and stability of MR fluids. This research highlights
a crucial observation of distinct ME effects, which could suggest
potential pathways for advancements in practical applications including
microfluidics, vibration dampers, tactile technologies, and biomedical
and bioengineering fields.