Magnetic nanoparticles engineered T cells inside living mice and guided them into solid tumors, achieving over 90% tumor ...

In recent years, great strides have been made in the fabrication of inorganic nanoparticles of desired size, shape and crystal structure. This synthetic control enables researchers to precisely ...

A strange, glowing form of matter called dusty plasma turns out to be incredibly sensitive to magnetic fields. Researchers found that even weak fields can change how tiny particles grow, simply by ...

Physicists and materials scientists from Tomsk Polytechnic University, as part of an international scientific collaboration, ...

Traditionally, radiation, chemotherapy, and surgery have been the most common ways to remove and destroy malignant cells. However, because these treatments can also damage healthy cells, they often ...

Every day, people die waiting for an organ transplant. Time is at a premium, not just for those awaiting organs, but also for the organs themselves, which can deteriorate rapidly during transportation ...

A new method using glycan-coated magnetic nanoparticles (gMNPs) is poised to change the way we detect foodborne pathogens like Escherichia coli and Salmonella in complex food matrices such as melons, ...

Chemists have created a synthetic cell that can be activated by a magnetic field to release a medicine whilst deep in the body. Synthetic cells are non-living mimics of real cells. They have a fatty ...

Learn which nanocarriers matter now (LNPs, exosomes, polymers) and the key hurdles in biodistribution, safety, CMC, and ...

Because the bioactive nanocomposites are magnetic, oncologists can employ magnetic hyperthermia – that is, the application of an alternating magnetic field to heat the particles inside cancer cells ...