J. D. G. Durán

TL;DR: The preparation of novel magnetic field-responsive tissue substitutes based on biocompatible multi-domain magnetic particles dispersed in a fibrin–agarose biopolymer scaffold and it is found that the mechanical properties of the magnetic tissue substitutes could be reversibly tuned by noncontact magnetic forces.

TL;DR: In this article, the rheological behavior of Na-montmorillonite (NaMt) suspensions in the presence of humic acid is analyzed and it is shown that the electric charges on plate and edge surfaces of clay particles largely determine the formation of three-dimensional structures in suspensions.

TL;DR: A new model based on the slender-body approach for hydrodynamic interactions is described, which gives the correct order of magnitude for the highest fields in iron suspensions, but underestimates the experimental results obtained in ferrite ones.

TL;DR: In this paper, magnetorheological fluids using ionic liquids (ILs) as carrier were prepared, and the results compared with the theoretical predictions of Batchelor's equation were used to make inferences on the aggregation state of the suspensions.

TL;DR: This result provides evidence that the addition to fibrin of a small amount of agarose allows the rheological stability of the oral mucosa substitute to be maintained, and makes this biomaterial appropriate for potential use as a scaffold in regenerative therapies of human Oral mucosa.