Topic: Stanford Institute for Materials & Energy Sciences (SIMES)

News Feature

The research reveals the potential for machine learning in understanding the complex behavior of quantum materials.

News Feature

A groundbreaking study shows defects spreading through diamond faster than the speed of sound

Shocking a diamond with a high-power laser produced defects that propagated faster than the speed of sound.

News Feature

Analyzing X-ray movies with computer vision reveals how nanoparticles in a lithium-ion battery electrode work.

Illustration of battery electrode nanoparticles being imaged by X-rays

News Feature

It irons out wrinkles in thin films of these novel superconductors so scientists can see their true nature for the first time.

Colorized electron microscope images reveal defects in the atomic structure of a nickelate superconductor (right) compared to a defect-free structure (right)

Press Release

New SLAC-Stanford Battery Center bridges the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

Illustration

The new SLAC-Stanford Battery Center aims to bridge the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

News Feature

This ‘beautiful’ herringbone-like pattern could give rise to unique features that scientists are just starting to explore.

Illustration

This illustration depicts a herringbone-like pattern in the atomic lattice of a quantum material created by researchers at SLAC and Stanford.

News Feature

The SIMES investigator was cited for his singular contributions to quantum materials science.

News Feature

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

A grayscale image showing the outlines of a complex electrical device.

news collection

Two of the most urgent challenges of our time – clean energy and sustainability – require investigation at the atomic level.

Aerial image of workers installing solar panels on a home.

Past Event

Presented by Yi Cui, SLAC/Stanford University. To transform our energy sources to carbon neutrality, we need to power as much of modern society as...

public lecture art charging ahead: batteries of the future

The research reveals the potential for machine learning in understanding the complex behavior of quantum materials.

A groundbreaking study shows defects spreading through diamond faster than the speed of sound

Analyzing X-ray movies with computer vision reveals how nanoparticles in a lithium-ion battery electrode work.

It irons out wrinkles in thin films of these novel superconductors so scientists can see their true nature for the first time.

New SLAC-Stanford Battery Center bridges the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

The new SLAC-Stanford Battery Center aims to bridge the gaps between discovering, manufacturing and deploying innovative energy storage solutions.

This ‘beautiful’ herringbone-like pattern could give rise to unique features that scientists are just starting to explore.

This illustration depicts a herringbone-like pattern in the atomic lattice of a quantum material created by researchers at SLAC and Stanford.

The SIMES investigator was cited for his singular contributions to quantum materials science.

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

Two of the most urgent challenges of our time – clean energy and sustainability – require investigation at the atomic level.

Presented by Yi Cui, SLAC/Stanford University. To transform our energy sources to carbon neutrality, we need to power as much of modern society as possible with clean electricity.

Who we are

SLAC science explained

Vera C. Rubin Observatory LSST

Diversity, Equity & Inclusion

Expecting the Unexpected with AI at Particle Colliders

Stanford Institute for Materials & Energy Sciences (SIMES)

New AI-driven tool streamlines experiments

Groundbreaking study shows defects spreading through diamond faster than the speed of sound

‘Computer vision’ reveals unprecedented physical and chemical details of how a lithium-ion battery works

A foundation that fits just right gives superconducting nickelates a boost

New SLAC-Stanford Battery Center targets roadblocks to a sustainable energy transition

Battery research

SLAC, Stanford researchers make a new type of quantum material with a dramatic distortion pattern

Distorted quantum material

David Goldhaber-Gordon named AAAS Fellow

Researchers take a step toward novel quantum simulators

Energy and sustainability

Charging ahead: batteries of the future

New AI-driven tool streamlines experiments

Groundbreaking study shows defects spreading through diamond faster than the speed of sound

‘Computer vision’ reveals unprecedented physical and chemical details of how a lithium-ion battery works

A foundation that fits just right gives superconducting nickelates a boost

New SLAC-Stanford Battery Center targets roadblocks to a sustainable energy transition

Battery research

SLAC, Stanford researchers make a new type of quantum material with a dramatic distortion pattern

Distorted quantum material

David Goldhaber-Gordon named AAAS Fellow

Researchers take a step toward novel quantum simulators

Energy and sustainability

Charging ahead: batteries of the future