Crystal–Chemical and Biological Controls of Elemental Incorporation into Magnetite Nanocrystals

Abstract: Magnetite nanoparticles possess numerous fundamental, biomedical, and industrial applications, many of which depend on tuning the magnetic properties. This is often achieved by the incorporation of trace and minor elements into the magnetite lattice. Such incorporation was shown to depend strongly on the magnetite formation pathway (i.e., abiotic vs biological), but the mechanisms controlling element partitioning between magnetite and its surrounding precipitation solution remain to be elucidated. Here, we use… Show more

“…On the other hand, Zn 2+ could potentially replace Fe 2+ in magnetite, as they have similar ionic radii (0.74 Å for Zn 2+ , and 0.645 Å for Fe 2+ ). 25 Preliminarily, the effect of the NaOH Environmental Science: Nano Paper concentration and residence time in the microchannel on the iron and zinc content were investigated, and the results are presented in Fig. 3.…”

Magnetite precipitation approach for zinc hydrometallurgy: a microfluidic strategy

“…On the other hand, Zn 2+ could potentially replace Fe 2+ in magnetite, as they have similar ionic radii (0.74 Å for Zn 2+ , and 0.645 Å for Fe 2+ ). 25 Preliminarily, the effect of the NaOH Environmental Science: Nano Paper concentration and residence time in the microchannel on the iron and zinc content were investigated, and the results are presented in Fig. 3.…”

Magnetite precipitation approach for zinc hydrometallurgy: a microfluidic strategy