The ability of single particle cryo-electron microscopy to capture structural information on samples that could not be crystallized for use with crystallographic methods or were too delicate for ...

The atypical structure of the radium monofluoride molecule allows physicists to search for answers to some of the universe’s ...

A slender glass fiber no thicker than a human hair placed across a particle beam could improve accelerator monitoring. A team ...

A particle accelerator that produces intense X-rays could be squeezed into a device that fits on a table, my colleagues and I ...

By comparing the measured electron energy spectra with particle-tracking simulations, we infer a maximum energy gain of 0.915 kilo–electron volts over 30 micrometers, corresponding to an acceleration ...

When grown vertically into aligned arrays, known as nanotube “forests,” they form ideal channels for the corkscrewing laser ...

Researchers performing cryo-EM experiments can acquire the training to make their own cryo-EM and negative-stain grids, and collect and process their own high-resolution data. We also offer sample ...

Forbes contributors publish independent expert analyses and insights. I write about physics, science, academia, and pop culture. Most of the coverage of this adopts the framing of talking about this ...

What is single particle cryo-EM? Single particle cryo-EM involves using electron microscopy to take up to millions of images of a biological sample using low-dose radiation. Cryo-EM has been in use ...