Enhancement in hyperthermia properties of cobalt ferrite nanoparticles by changing reaction time
Researchers at University of Kashan have recently performed a study on hyperthermia properties of cobalt ferrite (CoFe2O4) nanoparticles synthesized using a thermal decomposition method with three temperature steps
The emergence of materials with magnetic shape memory
The scientific community has witnessed a groundbreaking development by researchers from the Paul Scherrer Institute PSI and ETH Zurich. They have successfully created a novel material that exhibits shape memory properties when exposed to a magnetic field
The investigation of magnetic materials with extreme ultraviolet (UV) radiation
The utilization of extreme ultraviolet radiation to investigate magnetic materials enables the acquisition of a comprehensive microscopic depiction of the interaction between magnetic systems and light. This approach represents the most rapid method to manipulate a magnetic material.
The feasibility of magnetic cobalt ferrite–bismuth ferrite core–shell nanoparticles for removal of microcontaminants from wastewater
Microcontaminants pose a significant challenge to our water resources, but eliminating them from wastewater necessitates substantial technical capabilities
The filling of zombie-like cells with magnetic particles in the screening of potential drugs from natural products
The University of Alabama has made a groundbreaking discovery in drug discovery. Researchers have developed a method that utilizes zombie-like cells, which appear normal externally but contain magnetic iron oxide particles internally
The use of nanomagnetic mechanisms in the storage and manipulation of data
Logic and memory devices, including computer hard drives, now utilize nanomagnetic mechanisms to store and manipulate data. Unlike silicon transistors, which have inherent efficiency limitations, these devices do not require energy to maintain their magnetic state