The organization of nanoscopic magnets into anisotropic structures represents a smart, bottom-up approach for creating highly anisotropic magnets with mesoscopic control over the magnetic anisotropy. Such architectures are of interest for many applications, like drug delivery, bioanalysis, data and energy storage, sensors, and catalysis. Magnetic nanoparticles are attractive for the above-mentioned applications due to the remarkable magnetic properties they maintain at scales of a few nanometers. Clever functionalization of the NP surface improves their stability; magnetic properties; or helps them to mediate their mutual supramolecular interactions, or to react in the sense of dynamic covalent chemistry.
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