New iron-doped carbon based nanoparticles boost cancer treatment with enhanced precision and safety Peer-Reviewed Publication Hefei Institutes of Physical Science, Chinese Academy of Sciences image: ...

To address this challenge, the team incorporated small amounts of iron into carbon nanoparticles through a solvothermal method. This enhancement improved the nanoparticles' ability to generate ·OH ...

Discover the newly developed cobalt-doped iron oxide nanoparticles, improving magnetic hyperthermia treatment for ovarian cancer.

Using pictures with atomic resolution, the mechanism of an important chemical reaction has finally be explained: When platinum nanoparticles act as catalysts on an iron oxide surface, the surface ...

Made of iron oxide and doped with cobalt, the nanoparticles show exceptional heating efficiency when exposed to an alternating magnetic field.

Made of iron oxide and doped with cobalt, the nanoparticles show exceptional heating efficiency when exposed to an alternating magnetic field.

“That’s double the heating performance of our previously published cobalt-doped iron oxide nanoparticles.” That means an ovarian cancer patient could receive an intravenous injection and have her ...

Made of iron oxide and doped with cobalt, the nanoparticles show exceptional heating efficiency when exposed to an alternating magnetic field.

This study reveals that Fe-doped boron nitride nanoparticles improve Anastrozole delivery, offering enhanced stability and targeted therapy for breast cancer.