News & Announcements

Argonne and DOE’s Office of Critical Materials and Energy Innovation launched the National Science-at-Scale Collaborative to help companies move critical materials and chemical manufacturing technologies from research to commercial production faster.

By showing when MXenes shift from order to disorder and how that affects performance, scientists are building a roadmap for tailored materials.

New Argonne-UIC collaborations use AI and advanced computing to push scientific boundaries in brain mapping, forever-chemical detection and tissue imaging.

Autonomous workflow combines artificial intelligence, machine learning and robotics to rapidly create polymers with precise, customizable properties.

Argonne researchers show how printed transistors can last thousands of cycles and operate at low voltage.

Computational and experimental insights identified membrane materials that help capture carbon dioxide from mixed gas streams more efficiently.

Selected projects aim to advance nuclear technologies, optimize battery manufacturing and reduce risks for freight operators.

Projects include research related to advanced nuclear reactor design, battery innovation and semiconductor reliability, among others.

A thin, glass-like layer could be the key to longer-lasting, cost-effective solid-state batteries.

A comprehensive review of the state of the art for battery electrode processing informs researchers, battery manufacturers and other industry stakeholders on key technical barriers that need to be addressed to accelerate commercialization.

Argonne advances battery breakthroughs at every stage in the energy storage lifecycle, from discovering substitutes for critical materials to pioneering new real-world applications to making end-of-life recycling more cost effective.

Argonne scientists and global partners win top chemistry honor for AI-powered breakthroughs that accelerate solar cell discovery and reshape materials science.

Argonne and UT Dallas sign agreement to accelerate U.S. battery innovation and secure critical materials supply chains through expanded joint research and student development.

Researcher Mark Messner honored for reorganizing complex nuclear reactor design rules, making them more accessible and integrating modern computerized methods.

Five Argonne scientists receive the Maria Goeppert Mayer and Walter Massey fellowships that support promising early-career researchers.

Sixbert Muhoza earns national recognition for exceptional leadership, groundbreaking energy materials research, and dedication to enhancing opportunities and support within the national postdoctoral community.