KULR to commercialize Li-Ion safety testing devices developed by NASA, NREL

KULR Technology has reached agreement with the National Renewable Energy Laboratory, funded by the U.S. Department of Energy, to be the exclusive manufacturing and distribution partner for the patented Internal Short Circuit (ISC) device which causes predictable battery cell failures in lithium-ion batteries, making them easier to study and, therefore, safer.

Often to induce an on-demand thermal runaway response in trigger cells, safety verification required over-testing, resulting in over-designing the battery. Due to the relative rarity of cell failures, scientists and researchers had been unable to reliably or accurately replicate latent defect cell failures in lab settings, impeding research into safer battery technology. In 2015, researchers at NREL and NASA developed and patented a device – the Internal Short Circuit – that creates these cell failures in predictable conditions.

“Cell designers, battery developers, and researchers need these devices to be able to better understand the cell internal shorting phenomena and its implications on cell and battery design. Numerous manned space applications rely on trigger cells with this implantable device to verifiably create the problems they are trying to address, and they are in high demand,” said Dr. Eric Darcy, Battery Systems Technical Discipline Lead at NASA-Johnson Space Center, who co-developed the ISC technology. “It’s really important that they are going to be more available and accessible.”

Over the past several years, lithium-ion battery failures have resulted in major recalls (Sony, 1.8 million batteries in 2006, HP 100,000 batteries in 2017), fatal aircraft downings and repeated dangerous, even fatal consumer incidents.

Unfortunately, previous lithium-ion cell testing methods such as mechanical (crush, nail penetration), thermal (heat to vent, thermal cycling) and electrical (overcharge, off-limits cycling) were all simply “not relevant to the latent-defect–induced field failure,” according to a 2015 NASA and NREL presentation. The ISC break-through received the prestigious R&D100 Award in 2016 and was runner-up NASA invention of the year in 2017 and is now part of NASA’s “Crewed Space Vehicle Battery Safety Requirements.”

KULR will begin shipping the ISC and ISC trigger cells in October, 2018.


Perhaps the most dangerous lithium-ion battery failure is thermal runaway propagation – when the extreme heat and fire from the failure of a single battery cell spreads to neighboring cells causing a chain-reaction fire and explosion. Among the most promising solutions to thermal runaway, in lab tests conducted by NASA using the ISC, is KULR Technology’s thermal runaway shield (TRS). The thin and lightweight heat shield has proven to stop runaway by insulating lithium-ion cells adjacent to those experiencing failure, keeping their temperature both low and stable during these catastrophic events.

“Most often, to induce an on-demand thermal runaway response in trigger cells, safety verification required over-testing, resulting in over-designing the battery,” said Darcy of NASA. “With the ISC, researchers can now design and produce cells and cell configurations that deal with the thermal runaway threat directly.”

KULR Technology’s core technology is a proprietary, vertically-aligned carbon fiber cooling material that is lighter, more flexible and more efficient than traditional thermal management products. The fiber was co-developed over decades of testing and research with NASA and has been deployed on the International Space Station and included in research missions to Mars and Mercury. KULR carbon fiber has virtually unlimited commercial and industrial applications for battery safety, reducing heat and increasing the longevity of electronic components and increasing the efficiency of energy storage. KULR also has extensive experience with tailoring various waxes for their melting heat sink technologies. With wax as the key insulator in the ISC device, KULR will able to optimize the activation temperature of the device upon request.

For more information visit www.kulrtechnology.com/home

Power Supplies & Energy Storage Thermal Management News

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