Researchers use novel method to monitor chemical changes in battery cells, enabling non-invasive analysis of long-term aging.

Clément and Seshadri are part of the Aqueous Battery Consortium (ABC) led by Stanford University/SLAC and involving 31 ...

This collaboration enhances Dragonfly Energy’s scientific understanding of batteries and advanced battery materials through Bruker’s cutting-edge magnetic resonance methods, driving advancements in ...

Researchers from Skoltech, the University of Warsaw, and the University of Iceland have demonstrated that by optical means it ...

A team of scientists at the U.S. Department of Energy’s Argonne National Laboratory has developed a new way to study how ...

New atomic sensor technology enhances MRI quality control by tracking hyperpolarized molecules in real-time, with potential ...

Argonne Lab uses magnetic resonance to track chemical changes inside working lithium battery cells. without destroying the ...

Argonne develops a novel method that uses nuclear magnetic resonance spectroscopy to characterize the chemical evolution ...

To understand how different regions of the brain work together, researchers use a method called resting-state functional ...

Argonne National Laboratory have developed and demonstrated an innovative set of methods to evaluate long-term aging in real-world battery cells.

This collaboration enhances Dragonfly Energy’s scientific understanding of batteries and advanced battery materials through Bruker’s cutting-edge magnetic resonance methods, driving advancements in ...