Medicine & TechnologyPenn State scholars developed an effective protection that could help nanomedicines pass through the immune system without being targeted by complement attacks during treatments.
The DNA antenna might be thousands of times thinner than the strand of human hair, it can still transmit radio waves to monitor the movement of proteins.
Using protein-based nanoparticles, researchers recently developed a new approach that can help with lung inflammation diagnosis and treatment, a breakthrough in nanotechnology and medicine.
A research team led by Andreas Stierle of DESY has recently laid the foundations for a substitute approach, which is storing hydrogen in small nanoparticles made of the precious metal palladium, only 1.2 nanometers in diameter.
Japanese biophysicists have just been able to create and manipulate a novel capsule-like DNA structure that holds great potential for future artifical molecular system applications.
A new study has specified that the search for the delivery of ultra-fast, energy-efficient magnetic recording could be one step closer to fruition because of the pioneering study on "all-optical switching of magnetization."
To identify how cancers like mesothelioma can still grow despite the use of immune checkpoint inhibitors, combined cells with immune cells called the T cells, which were then examined with the use of an electron microscope.
A small probe known as a nanobiosensor, that uses fluorescent to signal pH of cells in terms of their alkalinity or acidity is currently being detected by researchers.
Researchers from the University of Michigan have developed a highly sensitive fingertip-like advancement in prosthetic robotics that mimics how hands work to determine the right force to apply when gripping objects.