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Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applications

Ander García Díez, Mikel Rincón‐Iglesias, S. Lanceros‐Méndez, Javier Reguera, Erlantz Lizundia

2022Materials Today Chemistry101 citationsDOIOpen Access PDF

Abstract

Combining magnetic nanomaterials with materials of other classes can produce multicomponent nanoparticles with an entire ensemble of new structures and unique, enhanced, synergetic, and/or complementary functionalities. Here we discuss the most recent developments in the synthesis of multicomponent magnetic nanoparticles, describe the resulting structures and their novel properties, and explore their application in a variety of fields, including multimodal imaging, nanomedicine, sensing, surface-enhanced Raman scattering, and heterogeneous catalysis. The current synthetic methods (usually bottom-up approaches) of multicomponent nanoparticles can produce a number of tailored morphologies ([email protected], yolk-shell, core-satellite, Janus, nanochains, anisotropic, etc.), making them invaluable for applications in biology, medicine, chemistry, physics, and engineering. But like any new technology, their synthesis methods need to be optimized to be simple, scalable, and as environmentally friendly as possible before they can be widely adopted. In particular, the use of life cycle assessment (LCA) to guide future works toward environmental sustainability is highlighted. Overall, this review not only presents a critical and timely summary of the state-of-the-art of this burgeoning field in both fundamental and applied nanotechnology, but also addresses the challenges associated with understanding the particular structure-property relationships of multicomponent magnetic nanoparticles.

Topics & Concepts

NanotechnologyNanomedicineNanoparticleNanoengineeringMaterials scienceNanomaterialsMagnetic nanoparticlesComputer scienceNanomaterials for catalytic reactionsAdvanced Photocatalysis TechniquesNanocluster Synthesis and Applications