Magnetoelectrically driven catalytic degradation of organics
Fajer Mushtaq, Xiang-Zhong Chen, Harun Torlakcik, Christian Steuer,, Marcus Hoop, Erdem Can Siringil, Xavi Marti, Gregory Limburg, Patrick Stipp,, Bradley J. Nelson, Salvador Pan\'e

TL;DR
This paper demonstrates a novel magnetoelectric nanoparticle system that efficiently degrades organic pollutants in water under wireless magnetic fields, combining experimental and theoretical approaches to elucidate its mechanism.
Contribution
It introduces a new magnetoelectric core-shell nanoparticle catalyst for water purification, integrating synthesis, modeling, and mechanistic analysis.
Findings
Achieved 97% removal of synthetic dyes
Over 85% removal of pharmaceuticals
Identified hydroxyl and superoxide radicals as key reactive species
Abstract
Here, we report the catalytic degradation of organic compounds by exploiting the magnetoelectric (ME) nature of cobalt ferrite-bismuth ferrite (CFO-BFO) core-shell nanoparticles. The combination of magnetostrictive CFO with the multiferroic BFO gives rise to a magnetoelectric engine that purifies water under wireless magnetic fields via advanced oxidation processes, without involvement of any sacrificial molecules or co-catalysts. Magnetostrictive CoFe2O4 nanoparticles are fabricated using hydrothermal synthesis, followed by sol-gel synthesis to create the multiferroic BiFeO3 shell. We perform theoretical modeling to study the magnetic field induced polarization on the surface of magnetoelectric nanoparticles. The results obtained from these simulations are consistent with the experimental findings of the piezo-force microscopy analysis, where we observe changes in the piezoresponse of…
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