Influence of Different Magnetic Nanoheaters on the Thermoresponsive Deswelling of pNIPAM/Alginate Ferrogels for Remotely Activated Release Devices
D Jara, NH Ávila, GAM Medina, O Garate… - ACS Applied Nano …, 2023 - ACS Publications
Smart ferrogels composed of the thermoresponsive polymer poly (N-isopropylacrylamide)(
pNIPAM) and iron oxide nanoparticles are excellent candidates for designing remotely …
pNIPAM) and iron oxide nanoparticles are excellent candidates for designing remotely …
Oxidation Kinetics of Magnetite Nanoparticles: Blocking Effect of Surface Ligands and Implications for the Design of Magnetic Nanoheaters
Magnetite (Fe3O4) nanoparticles (NPs) are nowadays extensively used in biomedical,
environmental, and catalytic applications. However, magnetite is known to oxidize to …
environmental, and catalytic applications. However, magnetite is known to oxidize to …
Magnetic hybrid nanomaterial based on a natural polymer and an amino acid as pH/temperature dual-responsive nanoplatform for the delivery of tamoxifen
J Torres, D Cadena Castro, R Ancarani… - Frontiers in …, 2024 - frontiersin.org
Magnetic hybrid nanomaterials offer promising properties for the advancement of
nanoplatforms in cancer nanomedicine, particularly in drug delivery applications. These …
nanoplatforms in cancer nanomedicine, particularly in drug delivery applications. These …
Time depending magnetization of nanoparticles under radiofrequency fields: relaxation time in water for solid-liquid transition
In application as hyperthermia and nanowarming, power dissipation arises when the time-
dependent magnetization $ M (t) $ of an out-of-equilibrium system of nanoparticles lags …
dependent magnetization $ M (t) $ of an out-of-equilibrium system of nanoparticles lags …
Time Depending Magnetization of Nanoparticles Under Radiofrequency Fields: Experimental Relaxation Time in Water for Solid-Liquid Transition
In application as hyperthermia and nanowarming, power dissipation arises when the time-
dependent magnetization M (t) of an out-of-equilibrium system of nanoparticles lags behind …
dependent magnetization M (t) of an out-of-equilibrium system of nanoparticles lags behind …