# Washington

## Filter Results

• ### Seventeen from Argonne recognized with Secretary of Energy’s Honor Awards

Recognitions included achievements in supercomputing and characterizing COVID-19
• ### High-impact research: How meteorite strikes may change quartz on the Earth’s surface

Scientists using a unique combination of capabilities at the Advanced Photon Source have learned more about how meteorites affect one of the most abundant materials in the Earth’s crust.
• ### Department of Energy awards $3.15 million to Argonne to support collaborations with industry Awards come from DOE’s Technology Commercialization Fund. • ### Washington Argonne’s collaborations in Washington and across the United States have led to groundbreaking discoveries and development of new technologies that help meet the nation’s needs for sustainable energy, economic prosperity, and security. • ### Argonne researchers focus on grid cybersecurity to pave the way for a clean energy future Enhancing grid cybersecurity to prepare for a clean energy future • ### New version of Earth model captures detailed climate dynamics DOE labs collaborate on new high-resolution Earth systems model to predict climate trends into the next century. • ### Argonne lends a hand toward climate and weather understanding DOE user facility provides detailed weather and climate pattern data for more accurate prediction models. • ### Magic Tricks, Virtual Reality, and Trash Sorting: DOE STEM-CON Exposes Chicago’s South Side to Diverse STEM Opportunities and AI Advances DOE’s Argonne National Laboratory collaborated with South Side of Chicago’s Gary Comer Youth Center to host a multi-national DOE lab exhibition for local youth. • ### Department of Energy awards$4.6 million to Argonne to support collaborations with industry

Argonne National Laboratory received \$4.6 million to fund 12 projects across four research divisions.
• ### Ultrathin and ultrafast: scientists pioneer new technique for two-dimensional material analysis

Discovery allows scientists to look at how 2D materials move with ultrafast precision.