Materials Science

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April 12, 2021

News Feature

In a first, scientists watch 2D puddles of electrons spontaneously emerge in a 3D superconducting material

It’s an example of how surprising properties can spontaneously emerge in complex materials – a phenomenon scientists hope to harness for novel technologies.

Illustration of a 2D superconducting state emerging in a 3D superconductor

March 25, 2021

News Feature

Scientists uncover a process that stands in the way of making quantum dots brighter

The results have important implications for today’s TV and display screens and for future technologies where light takes the place of electrons and fluids.

Illustration of three quantum dot nanocrystals showing atomic-level changes when they are hit with laser light

February 23, 2021

News Feature

Researchers capture how materials break apart following an extreme shock

A better understanding of the failure process will help researchers design new materials that can better withstand intense events such as high-velocity impacts.

February 2, 2021

News Feature

A new hands-off probe uses light to explore the subtleties of electron behavior in a topological insulator

Just as pressing a guitar string produces a higher pitch, sending laser light through a material can shift it to higher energies and higher frequencies. Now scientists have discovered how to use this phenomenon to explore quantum materials in a new and much more detailed way.

Illustration of high harmonic generation in a topological insulator using circularly polarized laser light

February 1, 2021

News Feature

New Stanford-SLAC effort encourages electron microscopy work across boundaries

Stanford EM-X brings hundreds of researchers around the world together to discuss the latest methods and discoveries from electron microscopes.

Black and white electron microscope images of pollen.

January 21, 2021

News Feature

Squeezing a rock-star material could make it stable enough for solar cells

A promising lead halide perovskite is great at converting sunlight to electricity, but it breaks down at room temperature. Now scientists have discovered how to stabilize it with pressure from a diamond anvil cell.

Illustration of a lead halide material being squeezed in a diamond anvil cell

January 13, 2021

News Feature

Yi Cui will receive E.O. Lawrence Award

A pioneer in clean energy technology at Stanford and SLAC, he is one of eight scientists and engineers honored by the U.S. Department of Energy.

Photo of Stanford and SLAC Professor Yi Cui

January 11, 2021

News Feature

Study shows tweaking one layer of atoms on a catalyst’s surface can make it work better

The surprising results offer a way to boost the activity and stability of catalysts for making hydrogen fuel from water.

Illustration showing a book with layers of atoms on its pages

January 4, 2021

News Feature

First glimpse of polarons forming in a promising next-gen energy material

These fleeting disruptions, seen for the first time in lead hybrid perovskites, may help explain why these materials are exceptionally good at turning sunlight into electrical current in solar cells.

An illustration shows polarons as bubbles of distortion in a perovskite lattice

December 17, 2020

News Feature

Physicists solve chicken-and-egg question at the heart of photomagnetism

The results, which show that ultrafast atomic motions are the first step in forming a magnetic state, could lead to faster and more efficient data storage devices.

Materials Science

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