Posted on 08/16/2019 12:52:17 PM PDT by Red Badger
Switzerlands Innolith says it has made a major battery breakthrough, but theres reason to be skeptical
Electric carmakers have long been clamoring for a battery breakthrough that will improve the range of their vehicles while also extending their lifespans. Innolith, a Swiss startup, says its new high-density lithium-ion batteries can do just that.
The company claims to have made the worlds first 1,000 Wh/kg rechargeable battery. (Watt-hours per kilogram is a unit of measurement commonly used to describe the density of energy in batteries.) By comparison, the batteries that Tesla uses in its Model 3 the so-called 2170 cells are an estimated 250 Wh/kg; the company plans to eventually push that to 330 Wh/kg. Meanwhile, the US Department of Energy is funding a program to create 500 Wh/kg battery cells. If Innoliths claims turn out to be true, its high-density battery may have just leap-frogged over those targets.
Its a big jump, Innolith chairman Alan Greenshields said in an interview with The Verge. Its basically, in rough numbers, four times the current state-of-the-art for lithium-ion... Roughly three times what is generally accepted as being the next improvement in lithium. And its two times the energy density target [that] organizations like the US Department of Energy have set. So this is a big deal.
A battery with that density would be capable of powering an electric car for 1,000 kilometers (621 miles) on a single charge. Thats far greater than the current lithium-ion batteries on the market today. Teslas batteries, which are produced by Panasonic, can support 330 miles of range in the most expensive models. Most major automakers are aiming for a similar range in their electric vehicles.
Others, like electric car manufacturer Henrik Fisker, are pinning their hopes on solid-state battery technology, which they claim can achieve up to 500 miles of range. Most current electric cars are powered by wet lithium-ion batteries, which use liquid electrolytes to move energy around. Solid-state batteries have cells that are made of solid and dry conductive material, but that technology is still stuck in the lab and hasnt made it to production.
Innolith still uses wet liquid electrolytes in its lithium-ion batteries, but theres one major difference: the company replaces the organic (and highly flammable) solvent containing the electrolytes with an inorganic substance thats more stable and less flammable.
We take the organic materials out and replace them with inorganic or basically salt-like materials, and that does two things for you, Greenshields says. One is it gets rid of your fire risk, so, of course, theres nothing to burn. And the second part is youve also got rid of the most reactive components in the system, which makes it easier to build a battery where you can pack in a lot of energy without the thing becoming unstable.
The organic materials found in most lithium-ion batteries are the principle source of side reactions, which, over time, can consume the active materials in the battery and turn the whole closed-loop system into something non-productive, he adds. Innolith claims its new battery has done away with this problem.
Innolith says it will bring its innovative new battery to market via an initial pilot production in Germany, followed by licensing partnerships with major battery and automotive companies. (Greenshields cited India as one country that could be interested in Innoliths technology.) Development and commercialization will likely take three to five years, which means the companys battery wont be ready to go to market until 2022 at the earliest.
A lot can happen between now and then, as Greenshields and Innoliths CEO Sergey Buchin are well-aware. Previously, the two men were the chief technology officer and chief operating officer, respectively, of Swiss-battery maker Alevo. That company filed for bankruptcy in 2017 after betting big on manufacturing capacity in Charlotte, North Carolina. Even an investment from a Russian billionaire linked to President Trump couldnt ultimately save the company.
After filing Chapter 11, Greenshields and Buchin arranged the purchase of Alevos intellectual property and established a headquarters in Basel, Switzerland. They also bought its research and development facility in Bruchsal, Germany, where they intend to launch their pilot production.
The company isnt completely theoretical. Its licensed its battery technology to PJM Grid, which, according to its website, coordinates the movement of wholesale electricity in all or parts of Delaware, Illinois, Indiana, Kentucky, Maryland, Michigan, New Jersey, North Carolina, Ohio, Pennsylvania, Tennessee, Virginia, West Virginia and the District of Columbia. PJM has been testing an Innolith GridBank battery at scale in Hagerstown, Maryland.
Thats the first time ever that a rechargeable lithium battery using inorganic electrolytes has been commercially deployed, Greenshields said. That will hopefully help bolster Innoliths reputation as it gears up to put its high-energy, high-density battery into production. There have been claims of major breakthroughs in battery technology in the past, but theres little to show for it. The companys leaders are aware that they will need to independently verify their claims before anyone lines up to buy their products.
I think Thomas Edison said the greatest scoundrel was the person who claims they have a battery breakthrough, said Julian Tanner, Innoliths chief marketing officer. [Note: I couldnt find this exact quote, but this 1883 interview with Edison seems to address the broader points about battery breakthroughs.]
Still, Innolith isnt afraid of appearing like a scoundrel if it means altering the future of battery technology. Weve really got a battery breakthrough that will change the landscape forever, Tanner said.
How would that work in a Swiss car? No matter how hard you try, you can’t get the darn thing out of neutral.
If they have achieved four times the energy density, that is a really big F’n deal, as Joe Biden would say.
That would make all sorts of things possible, like electric aircraft, or cars with four times the range. That kind of an advance might actually make electrics competitive.
600 miles is about as far as I would usually drive in a day. If they achieve that kind of range, with an overnight recharge, such a vehicle would meet all of my needs.
I recently went to a hardware store to buy a smoke alarm with the standard 9v battery and they only had new ones with 10 year warranty and totally sealed. Then I read the box and it said something about “nuclear” substance inside and that was why it was sealed and 10 year warranty. Can cars use a similar technique?
“Also included free are a bottle of pills that will make your di*k grow a foot.”
I’ll pass on the battery breakthrough, but I’ll take the pills!
We have former friends who have a daughter living in Bend, Or., and they now live west of Sacraemento.
They helped her to buy her current home with the stipulation, they come up and live in their own bedroom during the hot summers/early falls in Sac.
The distance each way is about 420 miles or 849 round trip.
He was going to buy an electric car to drive up and back. I told his daughter to do the math re a range of less than 300 miles. Math like for most greenies, math is not there for him.
After she did the math, he bought a Chevy pickup with a diesil.
He dosen’t fill up here. He fills up in Oregon at a lot less in Cali/gal. On his return trip, he fills up at the Oregon border.
He and his wife kept her Pious to drive around town and to blend in with other greenies.
Good energy density, keep going. We need at least as much investment in battery technology as we’ve had in gender disphoria.
For a second there I thought it would shrink it to a foot.
We’ve had the technology to make a nuclear powered vehicle for decades, but until you guarantee that no accidents will cause A disaster, then no sales!.......
why would i want another foot, when shoes only come in pairs.
The 2019 version of the 150 miles per gallon carburettor.
Unless you work at IHOP.
I see the name Fisker mentioned. Wasnt it Fisker that took investment money from the US, for development of an electric car, then moved production to Finland until the company ran out of money and went buns up?
Yep, then the Superstorm Sandy destroyed their inventory.......
Hydrogen has had this range for a decade.
It really shouldn’t have any feet...
lol...I had a guy that worked for me that tried every one of the mileage improvement devices. In the end he caught his truck on fire and burned it to the ground.
As far as the 100 mpg carb goes it cant’ work unless you have a Messerschmidt KR200.
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