In situ melt electrospun polycaprolactone/Fe3O4 nanofibers for magnetic hyperthermia

“…In some cases, nanoscale effects displayed by the nanoparticles are due to the high concentrations of crystallographic defects associated with the surface disorder; however, they can also be due to quantum resonance phenomena stemming from the similarity between the particle size and the critical lengths for particular physical effects [ 18 ]. Nanoparticles have been frequent additives in polymeric matrices, including PCL [ [19] , [20] , [21] ], with the goal of improving not only their mechanical strength, but also hydrophilicity, bioactivity and tissue bonding strength.…”

Nanofibrous ε-polycaprolactone scaffolds containing Ag-doped magnetite nanoparticles: Physicochemical characterization and biological testing for wound dressing applications in vitro and in vivo

“…In some cases, nanoscale effects displayed by the nanoparticles are due to the high concentrations of crystallographic defects associated with the surface disorder; however, they can also be due to quantum resonance phenomena stemming from the similarity between the particle size and the critical lengths for particular physical effects [ 18 ]. Nanoparticles have been frequent additives in polymeric matrices, including PCL [ [19] , [20] , [21] ], with the goal of improving not only their mechanical strength, but also hydrophilicity, bioactivity and tissue bonding strength.…”

Nanofibrous ε-polycaprolactone scaffolds containing Ag-doped magnetite nanoparticles: Physicochemical characterization and biological testing for wound dressing applications in vitro and in vivo

“…Starting from an initial temperature of 15 ℃, it was observed that the temperature increased with the concentration of MNPs in the fibers following the application of an AMF. These results reveal that PCL/Fe 3 O 4 fiber membrane has the potential to be used in the treatment of hyperthermia [ 75 ].…”

Localized Therapeutic Approaches Based on Micro/Nanofibers for Cancer Treatment

“…Moreover, the dispersion of nanoparticles in the polymer solution or melt makes it possible to obtain hybrid systems in which the nanoparticles are dispersed inside the electrospun fibers (Fig. 4B) (Dziemidowicz et al, 2021;Hu et al, 2020;Selvaraj et al, 2018).…”

Recent advances in electrospun nanofiber vaginal formulations for women's sexual and reproductive health