Stanford Institute for Materials & Energy Sciences (SIMES)

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June 29, 2020
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Researchers have invented a way to slide atomically-thin layers of 2D materials over one another to store more data, in less space and using less energy.
Illustration of experimental technology that stores data by shifting atomically thin layers of metal
June 22, 2020
News Feature
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A new lithium-based electrolyte invented by Stanford University scientists could pave the way for the next generation of battery-powered electric vehicles.
Photo of vials containing new electrolyte for lithium metal batteries
May 15, 2020
News Feature
The advance opens a path toward a new generation of logic and memory devices that could be 10,000 times faster than today's.
Fanciful illustration based on electron orbitals
April 2, 2020
News Feature
Turning a brittle oxide into a flexible membrane and stretching it on a tiny apparatus flipped it from a conducting to an insulating state and changed its magnetic properties. The technique can be used to study and design a broad range of materials for use in things like sensors and detectors.
Close up of strain pattern produced by stretching membrane
February 26, 2020
News Feature
External
With the right amount of pressure and surprisingly little heat, a substance found in fossil fuels can transform into pure diamond.
Scientist holding diamondoid molecule moldels
January 20, 2020
News Brief
Discovered at SLAC and Stanford, this new class of unconventional superconductors is starting to give up its secrets – including a surprising 3D metallic state.
Graphic showing electronic structure of nickelate superconductor
December 3, 2019
News Feature
It reveals an abrupt transition in cuprates where particles give up their individuality. The results flip a popular theory on its head.
Illustration of abrupt transition in normal state of a cuprate
November 21, 2019
News Brief
Computer simulations yield a much more accurate picture of these states of matter.
Illustration of a Monte Carlo simulation
September 26, 2019
News Feature
The Hubbard model, used to understand electron behavior in numerous quantum materials, now shows us its stripes, and superconductivity too, in simulations for cuprate superconductors.
Diagram of electrons moving to neighboring atoms in Hubbard model
August 28, 2019
Press Release
Made with ‘Jenga chemistry,’ the discovery could help crack the mystery of how high-temperature superconductors work.
Illustration of 'Jenga chemistry' step of making new superconductor

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