Chiral Magnetic Oxide Nanomaterials: Magnetism Meets Chirality

Chiral magnetic oxide nanomaterials (CMONs), which combine the beneficial effects of chirality and magnetism in a single unit, have found applications in biomedical, optical, and electronic devices as well as in catalysis and sensing. This is largely due to the simultaneous presence of magnetic properties, catalytic activity, biocompatibility and optical activity, or magneto-optical effects, which are circular polarization and magnetization dependent. This review summarizes the key findings derived from recent research works on the synthesis, properties, and applications of CMONs. The three main approaches in the synthesis and property tuning of CMONs, namely, post-functionalization, in situ approach, and assembly with soft templates, are discussed. A summary and some future prospects of the CMONs with respect to their synthetic routes, chirality origin, and applications are also provided.

Automated summary

This review summarizes recent research works on the synthesis, properties, and applications of chiral magnetic oxide nanomaterials (CMONs), which combine the beneficial effects of chirality and magnetism in a single unit. The simultaneous presence of magnetic properties, catalytic activity, biocompatibility and optical activity, or magneto-optical effects, makes CMONs widely applicable in biomedical, optical, and electronic devices as well as in catalysis and sensing.