%ALiu, Y.%AZhou, P.%AFu, J.%AIyengar, M.%ALiu, N.%ADu, P.%AXiong, Y.%AMoiseienko, V.%AZhang, W.%AZhang, J.%AMa, Z.%AQi, Y.%ANovosad, V.%AZhou, T.%AFilippov, D.%AZhang, T.%APage, M.%ASrinivasan, G.%BJournal Name: MRS Communications; Journal Volume: 10; Journal Issue: 2 %D2020%I %JJournal Name: MRS Communications; Journal Volume: 10; Journal Issue: 2 %K %MOSTI ID: 10171400 %PMedium: X %TStrain-mediated magneto-electric interactions in hexagonal ferrite and ferroelectric coaxial nanofibers %XAbstract This report is on the synthesis by electrospinning of multiferroic core-shell nanofibers of strontium hexaferrite and lead zirconate titanate or barium titanate and studies on magneto-electric (ME) coupling. Fibers with well-defined core–shell structures showed the order parameters in agreement with values for nanostructures. The strength of ME coupling measured by the magnetic field-induced polarization showed the fractional change in the remnant polarization as high as 21%. The ME voltage coefficient in H-assembled films showed the strong ME response for the zero magnetic bias field. Follow-up studies and potential avenues for enhancing the strength of ME coupling in the core–shell nanofibers are discussed. %0Journal Article