Energy

Extreme charging temps enable 10-minute refill of prototype EV battery

Extreme charging temps enable 10-minute refill of prototype EV battery
Penn State's new fast-charging battery is designed to heat up 140° F (60° C) for just 10 minutes, and then be quickly cooled to ambient temperatures
Penn State's new fast-charging battery is designed to heat up 140° F (60° C) for just 10 minutes, and then be quickly cooled to ambient temperatures
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Penn State's new fast-charging battery is designed to heat up 140° F (60° C) for just 10 minutes, and then be quickly cooled to ambient temperatures
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Penn State's new fast-charging battery is designed to heat up 140° F (60° C) for just 10 minutes, and then be quickly cooled to ambient temperatures

While Tesla’s latest superchargers can get its customers back on the road quicker than ever before, we’re still a ways off a world where recharging an electric vehicle is akin to a quick fuel stop. Exciting progress is being made, however, with the latest promising advance coming from chemical engineers at Penn State University, who have built a new battery they say can fully charge an electric car in just 10 minutes.

Powering smartphones, laptops, cars and trucks, lithium-ion batteries are hugely versatile and largely reliable, but are delicate systems at the same time. As scientists make subtle tweaks to their design in pursuit of new and improved versions, this often creates other problems, like the formation of dendrites that can cause the battery to short circuit.

Another example relates to the ambient temperatures as the battery is charged. Too cold and the lithium ions will take the shape of spikes on the battery anode. This is known as lithium plating and causes the battery to degrade, potentially making it unsafe to use. Charging batteries at higher temperatures is more efficient, but that too can cause lead to battery degradation.

"Taking this battery to the extreme of 60° C (140° F) is forbidden in the battery arena," says Chao-Yang Wang, professor of chemical engineering and professor of materials science and engineering at Penn State. "It is too high and considered a danger to the materials and would shorten battery life drastically."

So, current lithium batteries have a certain temperature range to work within, but the Penn State researchers have been eyeing the potential of faster charging rates offered by higher temperatures, and appear to have come up with a solution.

Their new battery is designed to heat up to 60° C (140° F) for just 10 minutes, and then be quickly cooled to ambient temperatures. It does this through a thin nickel foil which attaches to the negative terminal at one end, while the other end extends beyond the battery to create a third terminal. Electrons then flow through the nickel foil to rapidly heat it up and warm the battery in just 30 seconds.

The team used a range of methods to cool the battery temperature, including fans, and found that when charged in the range of 49 to 60° C (120 to 140° F) and quickly cooled, no lithium plating occurred at all. This enabled them to repeat the fast-charging process across 1,700 cycles, while a control device heated to 20° C (68° F) only lasted for 60 cycles.

"We demonstrated that we can charge an electrical vehicle in 10 minutes for a 200- to 300-mile range (320- to 480-km),” says Wang. "And we can do this maintaining 2,500 charging cycles, or the equivalent of half a million miles of travel."

There is a lot of work to do before we see this tech in the real world, but the researchers do say it is perfectly scalable, as the battery cells are based on industrially available electrodes. But in anticipation of further advances, the team is setting its sights on even faster charging times.

"We are working to charge an energy-dense electric vehicle battery in five minutes without damaging it," says Wang. "This will require highly stable electrolytes and active materials in addition to the self-heating structure we have invented."

The research was published in the journal Joule.

Sources: Penn State University, Scimex

6 comments
6 comments
ChairmanLMAO
self heating might defeat the ev challenges in cold places like canada?
CAVUMark
Produce the 10 minute battery and proceed to the faster charging systems... why wait. A Zenith engineer I worked for had a favorite saying, "Sometimes you have to shoot the engineers are go into production".
piperTom
Their "control device ... only lasted for 60 cycles"? Where did they get this terrible battery? A car buyer who needs to replace the right expensive battery after only two months would be sorely peeved! The 1700 (or 2500?) cycle life is just tolerable, tho one must wonder if this laboratory figure would be matched in the rough & tumble real world.
Expanded Viewpoint
But... the petroleum fuels that are not burned in cars and trucks will just be shuttled over to power plants to make electricity to charge up these batteries, so where is the net gain in any of this? And what about the materials used to make the batteries? You'll need plastic for the casings (petroleum derived), you will need to locate, mine and refine the metal ores, which will require burning oil and gasoline, you will need to make new manufacturing facilities to make all of these new design batteries, the electrolytes are probably going to be rather exotic concoctions and made out of who knows what, which may drive the costs up, so just whom is really going to benefit from this boondoggle??
guzmanchinky
It's only a matter of time before a 5 minute charge at a Chevron is commonplace. Goodbye gasoline...
Jason Catterall
Buh-bye gasoline.