If scaled up successfully, the team's new system could help answer questions about certain kinds of superconductors and other unusual states of matter.

Researchers used cryo-EM (left) to discover how a chamber in human cells (right) directs protein folding. 

A polymer-based electrolyte makes for batteries that keep working – and don’t catch fire – when heated to over 140 degrees F. 

To invent a new tool for studying how chemicals react at interfaces, researchers shoot tiny jets of oil and water at each other and illuminate them.

The award celebrates Huang’s achievements studying atom-scale physics with fast X-ray pulses.

His work has led to new treatments for advanced lung cancer and a better understanding of dangerous parasites.

Encapsulating precious-metal catalysts in a web-like alumina framework could reduce the amount needed in catalytic converters – and our dependency on these scarce metals.

They saw how the material finds a path to contorting and flexing to avoid being irreversibly crushed.

The protein could play a key role in soil carbon cycling and soil decomposition.

An extension of the Stanford Research Computing Facility will host several data centers to handle the unprecedented data streams that will be produced by a new generation of scientific projects.

They’ll work on experiments that search for dark matter particles and exotic neutrino decays that could help explain why there’s more matter than antimatter in the universe.