![Image - Explanatory diagrams and magnified nanopartic...](/sites/default/files/styles/card/public/images/130108-sulfer-yolk-full-2_3.jpg?h=56b1f98d&itok=Mcpel5sz)
Photograph
Lydia-Marie Joubert is pointing at the result of laminating an organic sample down to 100-300nm thickness for cryo-EM imaging. For...
![Cryo-EM computer image](/sites/default/files/styles/card/public/2022-10/2021_1017_CryoEM_ASC_HtetKhant_Joubert_Bonin-15.jpg?h=bd2f4e3c&itok=Gvo7xER2)
![A web of red material encapsulates blue polyhedrons.](/sites/default/files/styles/card/public/2022-11/stable_catalyst_illustration_la_final.jpg?h=2bf5e2d1&itok=M_CPrIdk)
![poster for lecture titled What the cell is going on?](/sites/default/files/styles/card/public/2023-01/public_lecture_jan2023_poster_final.jpg?h=5e8f56a3&itok=DD4sC0Bl)
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)
Illustration
This graphic illustration shows how a SARS-CoV-2 protease attaches to a new molecule. The new molecule is meant to slow the virus inside an...
![This graphic illustration shows how a SARS-CoV-2 protease attaches to a new molecule. The new molecule is meant to slow the virus inside an infected person.](/sites/default/files/styles/card/public/2023-03/sars_cov2_inhibitor_visual_final.jpg?h=d9e269fc&itok=xdr8xGob)
Photograph
Researchers stand near SSRL's Beam Line 12-2. From left, Soichi Wakatsuki, co-senior author and professor at SLAC and Stanford; Suman...
![Researchers stand near SSRL's Beam Line 12-2. From left, Soichi Wakatsuki, co-senior author and professor at SLAC and Stanford; Suman Pokhrel, Stanford University graduate student in chemical and systems biology and one of the paper’s lead authors; and Irimpan Mathews, SSRL lead scientist and co-author.](/sites/default/files/styles/card/public/2023-03/2023_0223_Research_Towards_New_Covid_19_Treatment_Orrell-1.jpg?h=70b7ccc8&itok=Cg8OfTKc)
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)
Photograph
Yi Cui is an associate professor of materials science and engineering and a member of the Stanford Institute for Materials...
![Flow battery](/sites/default/files/styles/card/public/images/130424-flowbattery-yicui-full.jpg?h=703a5545&itok=RpyqsB1S)
Illustration
Researchers use powerful X-rays to reveal molecular structures at the site where drug compounds interact with cell receptors. These structures...
![Powerful X-rays reveal molecular structures at the site where drug compounds interact with cell receptors.](/sites/default/files/styles/card/public/images/at_leadart_final.jpg?h=228311bc&itok=LH6-dpI3)
Illustration
An illustration of electrolyte molecules arranging themselves into layers within a few nanometers of a battery electrode.
![Illustration of molecular layers in battery electrolyte](/sites/default/files/styles/card/public/images/battery_electrolyte_v06.jpg?h=8b685379&itok=9_QYuBNK)
![Image - Explanatory diagrams and magnified nanopartic...](/sites/default/files/styles/card/public/images/130108-sulfer-yolk-full-2_3.jpg?h=56b1f98d&itok=Mcpel5sz)
![Photo - scientist preparing a dime-sized prototype battery](/sites/default/files/styles/card/public/images/BatteryLab-screengrab.jpg?h=297078b9&itok=cn5LUJa9)