Energy Sciences Directorate

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January 21, 2021
News Feature
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
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
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
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
November 25, 2020
News Feature
External
Cui was honored for his work on materials chemistry for energy and the environment, and Wechsler for scientific contributions and leadership of large programs in cosmology.
Portraits of Yi Cui and Risa Wechsler
October 29, 2020
News Feature
SLAC and Stanford partner with two Illinois universities to create the Center for Quantum Sensing and Quantum Materials, which aims to unravel mysteries associated with exotic superconductors, topological insulators and strange metals.
Illustration of quantum processes
October 15, 2020
Press Release
Adding polymers and fireproofing to a battery’s current collectors makes it lighter, safer and about 20% more efficient.
Conceptual illustration of advantages of redesigned current collector
September 30, 2020
News Feature
Daniel Ratner, head of SLAC’s machine learning initiative, explains the lab’s unique opportunities to advance scientific discovery through machine learning.
Daniel Ratner
September 10, 2020
News Feature
External
For decades Z-X Shen has ridden a wave of curiosity about the strange behavior of electrons that can levitate magnets.
Portrait of Stanford and SLAC Professor Z-X Shen
August 31, 2020
News Feature
Theory suggests that quantum critical points may be analogous to black holes as places where all sorts of strange phenomena can exist in a quantum material. Now scientists are trying to pin down where this particular quantum critical point might be.
Illustration of changes in charge stripes as a superconductor approaches a quantum critical point

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