Materials Science

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April 28, 2022

News Feature

What drives rechargeable battery decay? Depends on how many times you've charged it

How quickly a battery electrode decays depends on properties of individual particles in the battery – at first. Later on, the network of particles matters more.

A group of particles, some highlighted in reds and oranges to show which have begun to break apart.

April 8, 2022

News Feature

San Jose State students study nanodiamonds at SLAC’s synchrotron

A physical chemist and a diverse group of his students are working on applications with nanoscopic diamonds.

March 9, 2022

News Feature

In a first, researchers image the full structure of trapped excitons

It’s a significant step in understanding these whirling quasiparticles and putting them to work in future semiconductor technologies.

A beam of light hits a semiconductor material, ejecting an electron (blue) which goes on to partner with a hole (orange) to form a whirling compound particle, the exciton.

March 7, 2022

News Feature

Q&A: From particle beams to cancer treatment – fundamental research that affects everyday life

SLAC’s Matt Garrett and Susan Simpkins talk about tech transfer that brings innovations from the national lab to the people, including advances for medical devices and self-driving vehicles.

February 25, 2022

News Feature

Stronger materials could bloom with new images of plastic flow

A laser compressing an aluminum crystal provides a clearer view of a material’s plastic deformation, potentially leading to the design of stronger nuclear fusion materials and spacecraft shields.

an abstract illustration of rippling waves made of shining dots

February 16, 2022

News Feature

‘Fingerprinting’ minerals to better understand how they are affected by meteorite collisions

Researchers mimicked these extreme impacts in the lab and discovered new details about how they transform minerals in Earth’s crust.

February 14, 2022

News Feature

A new way to shape a material’s atomic structure with ultrafast laser light

X-ray laser experiments show that intense light distorts the structure of a thermoelectric material in a unique way, opening a new avenue for controlling the properties of materials.

Illustration shows two ball-and-stick molecules in pink and red separated by a blurred streak representing how the first structure is slightly deformed into the second.

February 9, 2022

News Feature

Study raises new possibilities for triggering room-temperature superconductivity with light

Scientists discover that triggering superconductivity with a flash of light involves the same fundamental physics that are at work in the more stable states needed for devices, opening a new path toward producing room-temperature superconductivity.

January 26, 2022

News Feature

SLAC and Stanford researchers reveal the fourth signature of the superconducting transition in cuprates

The results cap 15 years of detective work aimed at understanding how these materials transition into a superconducting state where they can conduct electricity with no loss.

Conceptual illlustration showing a beam of light entering from the right and hitting a material, ejecting a sphere representing an electron

January 19, 2022

News Feature

Advancing materials science with the help of biology and a dash of dish soap

High-speed X-ray free-electron lasers have unlocked the crystal structures of small molecules relevant to chemistry and materials science, proving a new method that could advance semiconductor and solar cell development.

Materials Science

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