Simultaneous screening of the stability and dosimetry of nanoparticles dispersions for in vitro toxicological studies with static multiple light scattering technique.

To evaluate the nanoparticle (NP) toxicity, much efforts have been devoted for developing methods to accurately disperse NPs into aqueous suspensions prior to in vitro toxicological studies. As NP toxicity is strongly dependent on their physicochemical properties, NP characterization is a key step for any in vitro toxicological study. This study demonstrates that the static multiple light scattering (SMLS) technique allows for the simultaneous screening of the NP size, agglomeration state, stability and dosimetry in biological media.

Phase transitions in polymorphic materials probed using space-resolved diffusing wave spectroscopy.

We use space-resolved dynamic light scattering in the highly multiple scattering regime (Photon Correlation Imaging Diffusing Wave Spectroscopy, PCI-DWS) to investigate temperature-induced phase transitions in polymorphic materials. We study paraffin wax as a simple model system and chocolate, a prototypical example of fat-based products exhibiting complex, history-dependent phase transitions. We find that microscopic dynamics measured using PCI-DWS show remarkable, non-monotonic behavior upon heating: they transiently accelerate when crossing phase transition and slow down above the transition temperature.