posted on 2022-08-17, 02:04authored byKyle M. Kirkpatrick, Benjamin H. Zhou, Philip C. Bunting, Jeffrey D. Rinehart
The synthesis of iron oxide nanoparticles with control
over size
and shape has long been an area of research, with iron oleate being
arguably the most successful precursor. Issues with reproducibility
and versatility in iron oleate-based syntheses remain, however, in
large part due to the mutable nature of its structure and stoichiometry.
In this work, we characterize two new forms of iron oleate precursor
that can be isolated in large quantities, show long-term stability,
and have well-defined stoichiometry, leading to reproducible and predictable
reactivity. Synthesis with these precursors is shown to produce iron
oxide nanoparticles in a tunable size range of 4–16 nm with
low size dispersity and properties consistent with magnetite in the
superparamagnetic size regime.