A team including SIMES principal investigator Shoucheng Zhang says it has found the first firm evidence of such a Majorana fermion.

A flash of green laser followed by pulses of X-rays, and mere nanoseconds later an extraterrestrial form of ice has formed.

Extraordinarily precise measurements -- within millionths of a billionth of a second and a billionth of a hair's breadth -- show this ‘electron-phonon coupling’ can be far stronger than predicted, and could potentially play a role in unconventional superconductivity.

The award recognizes the Stanford/SLAC professor’s pioneering work in the fields of energy and nanomaterials science.

Propagating “charge density wave” fluctuations are seen in superconducting copper oxides for the first time.

TIMES applies the power of theory to the search for novel materials with remarkable properties that could revolutionize technology.

Researchers, including from SIMES, say extracting uranium from seawater could help nuclear power play a larger role in a carbon-free energy future.

Computer simulations by SLAC physicists show how light pulses can create channels that conduct electricity with no resistance in some atomically thin semiconductors.

Scientists at Stanford and SLAC use diamondoids – the smallest possible bits of diamond – to assemble atoms into the thinnest possible electrical wires.

Squeezing a platinum catalyst a fraction of a nanometer nearly doubles its catalytic activity, a finding that could lead to better fuel cells and other clean energy technologies.

Understanding how a material’s electrons interact with vibrations of its nuclear lattice could help design and control novel materials, from solar cells to high-temperature superconductors.

Researchers have engineered a low-cost plastic material that could become the basis for clothing that cools the wearer, reducing the need for energy-consuming air conditioning.