Illustration
The new SLAC-Stanford Battery Center aims to bridge the gaps between discovering, manufacturing and deploying innovative energy storage solutions.
![Illustration showing a battery researcher at left, a battery at center and a grid of battery applications at right.](/sites/default/files/styles/card/public/2023-04/battery_center_pr_artwork_final.jpg?h=7748e344&itok=fJVe2wTS)
Illustration
This illustration depicts a herringbone-like pattern in the atomic lattice of a quantum material created by researchers at SLAC and Stanford.
![An illustration of a dramatic, herringbone-like pattern in the atomic lattice of a newly created quantum material. Against a black background, calcium atoms are seen as light blue spheres, cobalt atoms in dark blue and oxygen atoms in red. Lines connecting the oxygen atoms represent the atomic lattice.](/sites/default/files/styles/card/public/2023-02/distorted_quantum_material_la_final.jpg?h=be2f56fa&itok=Nq1RGmpV)
![Headshot of David Goldhaber-Gordon](/sites/default/files/styles/card/public/2023-02/Goldhaber-Gordon%20Web%20version.jpg?h=a32b3037&itok=f5g15D7H)
![Aerial image of workers installing solar panels on a home.](/sites/default/files/styles/card/public/2023-02/tess_la_house_aerial%20copy.jpg?h=79b2b32d&itok=ceG535CE)
![Stillframe of Jenga chemistry video](/sites/default/files/styles/card/public/2023-11/stillframe_eNAS3SBKmU.jpeg?h=c673cd1c&itok=hVQJWNrv)
![public lecture art charging ahead: batteries of the future](/sites/default/files/styles/card/public/2022-09/public_lecture_poster_oct2022_feature.jpg?h=fc1f0bab&itok=SBpjHweH)
Photograph
Stanford Institute for Materials and Energy Sciences (SIMES) research conducted at Stanford Synchrotron Radiation Lightsource (SSRL).
![Stanford Institute for Materials and Energy Sciences (SIMES) research conducted at Stanford Synchrotron Radiation Lightsource (SSRL).](/sites/default/files/styles/card/public/2022-09/2015_0925_BeardsleySSRL-19.jpg?h=a627dc5f&itok=sm6W-rD2)
![Against a black background, thin, glowing red wires at top impinge on the hexagonal surface of a translucent mass. Small white dots travel along the edges of the surface in two directions. Within the mass, two orange cones meet at their tips.](/sites/default/files/styles/card/public/probing_topological_high_harmonics_artwork_la_final.jpg?h=5a5fc591&itok=NawlRLkX)