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Magnetic Nanoparticles in Human Health and Medicine


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Type of magnetic material Diamagnetic Paramagnetic Ferromagnetic
χ −(10−4 – 10−6) (χ < 0) 10−3 – 10−5 (χ > 0) 102 – 105 (χ ≫ 0)

      Source: Parkinson et al. (2012). CC BY 3.0.

      The basic magnetic aspects of bulk magnetic material, ferromagnetic, or ferrimagnetic, and how they change in the case of nanomaterial, will be presented below considering the magnetic particles/nanoparticles for biomedical applications.

      1.1.2 The Atomic Magnetic Moment, Magnetization, and Magnetic Moment of the Nanoparticle

      In the case of a bulk paramagnetic, ferro‐, or ferrimagnetic material, the magnetism is due to the existence of the magnetic moment (total) at the atomic (or ionic/molecular) level (Kneller 1962; Jacobs and Bean 1963; Vonsovskii 1974; Caizer 2004a):

) and the orbital magnetic moments (total) (
): the vector model of the atom (
=
+
). In Eq. (1.1), gJ is the spectroscopic splitting factor (Lande factor) at the atomic level,

      mJ is the internal magnetic quantum number (total), which can take (2J + 1) values (according to quantum physics, respectively –J, …, 0, …, +J), and μB is the Bohr magnetone:

      (1.3)

      Macroscopically, the quantity that characterizes the bulk magnetic material, from a magnetic point of view, is the magnetization (

), defined as a numerical quantity equal to the resulting magnetic moment (