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Argonne National Laboratory researchers propose a novel way to design electrolytes for nearly any type of electrochemical process.
Projects address scientific gaps foundational to enabling fusion energy
Participants in the Energy I-Corps program aim to commercialize the Fermilab-developed Quantum Instrumentation Control Kit.
Argonne looks toward the future for pivotal discoveries in AI, quantum, batteries and synthetic biology.
Tanner works on self-assembling nanocrystals, which could be the basis for less expensive, easier to build displays and solar cells.
Gao will develop the next generation of diagnostic tools that will provide precise measurements for fusion experiments and future fusion pilot plants.
The AI model will help identify new alloys used as shielding for housing fusion applications components in a nuclear fusion power plant.
By controlling silk protein nanostructure for the first time, scientists at PNNL pave the way for advanced microelectronic and computing applications.
EJFAT prototype demonstrates proof of concept for connecting scientific instruments with remote high-performance computing for rapid data processing.
The new center will drive the discovery and design of complex magnetic and superconducting materials for energy and technology applications.