Well-controlled exchange bias effect in MnO@Mn3O4 core-shell nanoparticles with an inverted coupling structures

The influence of the varied thickness of antiferromagnetic (AFM) and ferrimagnetic (FiM) nanostructure in MnO@Mn3O4 core-shell nanoparticles (NPs) on the exchange bias effect has been investigated. The MnO@Mn3O4 core-shell NPs with varied radius of MnO core (R MnO ) and thickness of Mn3O4 shell (T Mn3O4 ) have been synthesized by in-situ oxidation of the pure MnO NPs in organic solution containing a mild oxidant at different temperatures. The exchange bias effect can be tuned by changing the R MnO (T Mn3O4 ) of the MnO@Mn3O4 core-shell NPs. The strongest exchange coupling effect of both 17.2 and 25.0 nm MnO@Mn 3 O 4 core-shell NPs occur when R MnO =T Mn3O4= R/2. It is expected that the finding of the control of exchange bias effect by varied R MnO and T Mn3O4 in inverted core-shell NPs is helpful for the further understanding of the exchange bias mechanism.