A research study led by Oxford University has developed a powerful new technique for finding the next generation of materials ...

These fundamental findings offer a novel mechanism by which rubrerythrin tubules encapsulate encapsulin to prevent oxidative stress in Pyrococcus furiosus. However, there are a few reasonable concerns ...

In the nanometer range (billionth of a meter), interactions occur between light and matter that do not happen on larger ...

Researchers from the Göttingen Cluster of Excellence Multiscale Bioimaging (MBExC) have uncovered the 3D structure of the membrane proteins myoferlin and dysferlin using high-resolution cryo-electron ...

Abstract: The pursuit of 3D reconstruction from 2D images for nanomanipulation under scanning electron microscopy stands as a critical research endeavor. Previous methods either necessitates ...

Learn more about 'sharkitecture' and how a shark's strong and flexible cartilage could help create advanced materials for ...

Using synchrotron X-ray nanotomography with detailed 3D imaging and in-situ mechanical testing, researchers are peering inside shark skeletons at the nanoscale, revealing a microscopic 'sharkitecture' ...

Researchers demonstrated a way to to manipulate electrons using pulses of light that last less than a trillionth of a second to record electrons bypassing a physical barrier almost instantaneously -- ...

A Petahertz Quantum Transistor built from graphene and laser pulses could redefine computing, a million times faster than ...

What if ultrafast pulses of light could operate computers at speeds a million times faster than today's best processors? A ...

What if ultrafast pulses of light could operate computers at speeds a million times faster than today's best processors? A team of scientists ...