Non-Debye Behavior of the Néel and Brown Relaxation in Interacting Magnetic Nanoparticle Ensembles
Cristian E. Botez, Jeffrey Knoop

TL;DR
The study investigates magnetic nanoparticle behavior in fluids, finding that relaxation processes do not follow expected models, which could impact biomedical applications.
Contribution
The paper reveals non-Debye behavior in magnetic nanoparticle relaxation, challenging existing theoretical models.
Findings
Below the freezing point of the carrier fluid, the Néel relaxation is well described by the DBF model.
Above the freezing point, the effective relaxation time does not follow the Rosensweig formula and is better described by a hydrodynamic Brown relaxation model.
Diluted samples show no Tp2 peaks, indicating that aggregation is inhibited by lower concentration.
Abstract
We used ac-susceptibility measurements to study the superspin relaxation in Fe3O4/Isopar M nanomagnetic fluids of different concentrations. Temperature-resolved data collected at different frequencies, χ″ vs. T|f, reveal magnetic events both below and above the freezing point of the carrier fluid (TF = 197 K): χ″ shows peaks at temperatures Tp1 and Tp2 around 75 K and 225 K, respectively. Below TF, the Néel mechanism is entirely responsible for the superspin relaxation (as the carrier fluid is frozen), and we found that the temperature dependence of the relaxation time, τN(Tp1), is well described by the Dorman–Bessais–Fiorani (DBF) model: τNT=τrexpEB+EadkB T. Above TF, both the internal (Néel) and the Brownian superspin relaxation mechanisms are active. Yet, we found evidence that the effective relaxation times, τeff, corresponding to the Tp2 peaks observed in the denser samples do not…
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Taxonomy
TopicsConsumer Retail Behavior Studies · Securities Regulation and Market Practices
