Medicine & TechnologyResearchers recently introduced a new approach using nanocomposite for clearer X-ray scans for both medical imaging and security screening.
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.
Laboratory for Multifunctional Materials Professor Markus Niederberger, at ETH Zurich, has been working on unusual materials, specifically, aerogels-based nanoparticles known as photocatalysts.
Researchers from two universities developed an ultra-compact camera the size of a grain of salt that can produce images at par with conventional cameras but with the potential of being used in medicine.
An international team of researchers has developed a way to create a paracrystalline diamond that retains its hardness but is less fragile than ordinary diamonds that are easily cut or smashed.