Monday, December 23, 2024

Spinoff From Argonne-led Innovation Hub Opens New Frontier for Batteries

Research by the Joint Center for Energy Storage Research (JCESR) has enabled spinoff company Blue Current to develop a safe, solid-state battery that is ready for megawatt-scale manufacturing. JCESR is an Energy Innovation Hub led by the U.S. Department of Energy’s Argonne National Laboratory. An arm of Koch Industries has invested $30 million in Blue Current to build its first pilot factory in Hayward, California. Blue Current’s target market is electric vehicles.

“JCESR put resources behind composites because the materials had potential to address a market need for safe, solid-state batteries while solving important technical challenges.”

Solid-state batteries, which contain solid electrolytes, are much less flammable than liquid batteries, potentially making them safer. But solid electrolytes face technical challenges.

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A crystalline class of solids known as glass ceramics have good conductivity. But they lack the ability to stick to the chemically active materials in battery electrodes that store lithium ions. Another class of materials known as polymers is effective at sticking to electrodes. But they have low conductivity.

In 2015, as part of JCESR-sponsored research, Lawrence Berkeley National Laboratory addressed the shortcomings of glass ceramics and polymers by bonding them together. The resulting composite solid electrolyte demonstrated good conductivity and good stickiness. Inspired by the composite’s potential, Blue Current developed it further.

Since then, the company has refined its components and addressed technical challenges common with solid-state batteries. For example, to help solid electrolytes stick to electrodes, some companies add heavy metal plates and bolts that put battery cells under high pressure. These fixtures increase manufacturing costs. Blue Current’s composite can maintain good contact with electrodes without the use of plates.

As part of rigorous safety testing, the company subjected its cells to harsh conditions that electric vehicles could encounter in the real world. Thermal runaway—an overheating event that can lead to fires—never occurred.

SOURCE: Businesswire

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