Developer Of Aluminum-Ion Battery Claims It Charges 60 Times Faster Than Lithium-Ion, Offering EV Range Breakthrough

1
A blessing for the hybrid and EV vehicles.
Range anxiety, recycling and fast-charging fears could all be consigned to electric-vehicle history with a nanotech-driven Australian battery invention.

The graphene aluminum-ion battery cells from the Brisbane-based Graphene Manufacturing Group (GMG) are claimed to charge up to 60 times faster than the best lithium-ion cells and hold three time the energy of the best aluminum-based cells.

They are also safer, with no upper Ampere limit to cause spontaneous overheating, more sustainable and easier to recycle, thanks to their stable base materials. Testing also shows the coin-cell validation batteries also last three times longer than lithium-ion versions.

GMG plans to bring graphene aluminum-ion coin cells to market late this year or early next year, with automotive pouch cells planned to roll out in early 2024.

Based on breakthrough technology from the University of Queensland’s (UQ) Australian Institute for Bioengineering and Nanotechnology, the battery cells use nanotechnology to insert aluminum atoms inside tiny perforations in graphene planes.

Testing by peer-reviewed specialist publication Advanced Functional Materials publication concluded the cells had “outstanding high-rate performance (149 mAh g−1 at 5 A g−1), surpassing all previously reported AIB cathode materials”.

GMG Managing Director Craig Nicol insisted that while his company’s cells were not the only graphene aluminum-ion cells under development, they were easily the strongest, most reliable and fastest charging.

“It charges so fast it’s basically a super capacitor,” Nicol claimed. “It charges a coin cell in less than 10 seconds.”

The new battery cells are claimed to deliver far more power density than current lithium-ion batteries, without the cooling, heating or rare-earth problems they face.

“So far there are no temperature problems. Twenty percent of a lithium-ion battery pack (in a vehicle) is to do with cooling them. There is a very high chance that we won’t need that cooling or heating at all,” Nicol claimed.

“It does not overheat and it nicely operates below zero so far in testing.

“They don’t need circuits for cooling or heating, which currently accounts for about 80kg in a 100kWh pack.”

The new cell technology, Nicol insisted, could also be industrialized to fit inside current lithium-ion housings, like the Volkswagen Group’s MEB archicture, heading off problems with car-industry architectures that tend to be used for up to 20 years.

“Ours will be the same shape and voltage as the current lithium-ion cells, or we can move to whatever shape is necessary,” Nicol confirmed.

“It’s a direct replacement that charges so fast it’s basically a super capacitor.

“Some lithium-ion cells can’t do more than 1.5-2 amps or you can blow up the battery, but our technology has no theoretical limit.”

Aluminum-ion battery cells are a hot bed of development, particularly for automotive use.

Recent projects alone have included a collaboration between China’s Dalian University of Technology and the University of Nebraska, plus others from Cornell University, Clemson University, the University of Maryland, Stanford University, the Zhejiang University’s Department of Polymer Science and the European Alion industrial consortium.

The differences are highly technical, but the GMG cells use graphene from made from its proprietary plasma process, rather than traditional graphite sourcing, and the result is three times the energy density of the next-best cell, from Stanford University.

Stanford’s natural graphite aluminum-ion technology delivers 68.7 Watt-hours per kilogram and 41.2 Watts per kilogram, while its graphite-foam bumps up to 3000W/kg.

The GMG-UQ battery heaves that forward to between 150 and 160Wh/kg and 7000W/kg.

“They (UQ) found a way to make holes in graphene and a way to store aluminum atoms closer together in the holes.

“If we drill holes the atoms stick inside the graphene and it becomes a whole lot more dense, like a bowling ball on a mattress.”

The peer-reviewed publication Advanced Functional Materials found surface-perforated, three-layer graphene (SPG3-400) had “a significant amount of in-plane mesopores (≈2.3 nm), and an extremely low O/C ratio of 2.54%, has demonstrated excellent electrochemical performance.

“This SPG3-400 material exhibits an extraordinary reversible capacity (197 mAh g−1 at 2 A g−1) and outstanding high-rate performance,” it concluded.

Aluminum-ion technology has intrinsic advantages and disadvantages over the preeminent lithium-ion battery technology being used in almost every EV today.

When a cell recharges, aluminum ions return to the negative electrode and can exchange three electrons per ion instead of lithium’s speed limit of just one.

There is also a massive geopolitical, cost, environmental and recycling advantage from using aluminum-ion cells, because they use hardly any exotic materials.

“It’s basically aluminum foil, aluminum chloride (the precursor to aluminum and it can be recycled), ionic liquid and urea,” Nicol said.

“Ninety percent of world lithium production and purchasing is still through China and 10 percent is through Chile.

“We have all the aluminum we need right here in Australia, and they can be safely made in the first world.”

Listed on the TSX Venture exchange in Canada, GMG hooked itself in to UQ’s graphene aluminum-ion battery technology by supplying the university with graphene.

“Our lead product scientist Dr Ashok Nanjundan was involved in the University of Queensland project in its nanotechnology research centre in its early days,” Nicol said, admitting GMG almost “lucked into” the technology by supplying research projects with its graphene at no cost.

GMG has not locked down a supply deal with a major manufacturer or manufacturing facility.

“We are not tied in to big brands yet, but this could go into an Apple iPhone and charge it in seconds,” Nicol confirmed.

“We will bring the coin cell to market first. It recharges in less than a minute, and it has three times the energy than with lithium,” the Barcaldine product said.

“It’s a lot less adverse effect on health, too. A kid can be killed by lithium if it’s ingested, but not with aluminum.”

Another benefit would be cost. Lithium has risen from US$1460 a metric tonne in 2005 to US$13,000 a tonne this week, while aluminum’s price has edged up from US$1730 to US$2078 over the same period.

Another advantage is that the GMG graphene aluminum-ion cells do not use copper, which costs around US$8470 a tonne.

While it is open to manufacturing agreements, GMG’s preferred plan is to “run” with the technology as far as it can, with 10 gigaWatt to 50gW plants, first, even if Australia may not be the logical first choice for the manufacturing facility.

It’s not the only Brisbane-based company pushing battery solutions onto the world, either.

PPK Group has a joint venture with Deakin University to develop lithium-sulphur batteries and the Vecco Group has confirmed a deal with Shanghai Electric for a Brisbane manufacturing plant for vanadium batteries for commercial energy storage.
https://www.forbes.com/sites/michaeltay ... daddeb6d28

Just another way to use those Coke cans. Would be great to not have to use lithium or other rare minerals.
Facts do not cease to exist because they are ignored.-Huxley
"We can have democracy in this country, or we can have great wealth concentrated in the hands of a few, but we can't have both." ~ Louis Brandeis,

Re: Developer Of Aluminum-Ion Battery Claims It Charges 60 Times Faster Than Lithium-Ion, Offering EV Range Breakthrough

2
This is essentially the story of technology and the long march of progress. Barring any unexpected discoveries of this new aluminum-ion technology, what we are witnessing is basically the end of the internal combustion engine. It also bodes well to have such cheap, stable energy storage batteries to facilitate the switch to green energy and small, locally generated energy grids for living (a more robust and energy efficient grid than we currently have).

Personally I hope this kind of battery becomes widely available soon. I’d love to have someone produce an aluminum-ion battery pack as replacement for my 15-year old Prius Ni-MH battery pack (still functioning nicely btw).
"It is better to be violent, if there is violence in our hearts, than to put on the cloak of non-violence to cover impotence. There is hope for a violent man to become non-violent. There is no such hope for the impotent." -Gandhi

Re: Developer Of Aluminum-Ion Battery Claims It Charges 60 Times Faster Than Lithium-Ion, Offering EV Range Breakthrough

3
Unfortunately the lithium and big oil interest will do everything they can to kill the introduction of fast charging cheaper safe batteries, to protect their profits.
Facts do not cease to exist because they are ignored.-Huxley
"We can have democracy in this country, or we can have great wealth concentrated in the hands of a few, but we can't have both." ~ Louis Brandeis,

Re: Developer Of Aluminum-Ion Battery Claims It Charges 60 Times Faster Than Lithium-Ion, Offering EV Range Breakthrough

4
TrueTexan wrote: Mon May 17, 2021 3:23 pm Unfortunately the lithium and big oil interest will do everything they can to kill the introduction of fast charging cheaper safe batteries, to protect their profits.
Maybe. There are some big hitters in the battery industry these days, though. Musk would do just about anything to keep battery tech going. His whole whatevethefuckitis plan relies on batteries, from cars to Mars.

Re: Developer Of Aluminum-Ion Battery Claims It Charges 60 Times Faster Than Lithium-Ion, Offering EV Range Breakthrough

10
Batteries are one part of it, it's also the charging.
Scott Hardman, of the UC Davis Plug-In Hybrid and Electric Vehicle Research Center, just published a study that found that 20% of Californians who bought electric vehicles between 2012 and 2018 later switched back to gas vehicles. Hardman said all the issues that concerned me, about range, charging speed and availability, were cited as reasons.

“One of the biggest take-aways for me is that if you don’t have Level 2 charging at home, the odds of you discontinuing ownership of electric vehicles is 50% higher. So we need to think more about how do we get fast charging to people’s houses,” Hardman said, and making that happen for apartment and condo dwellers is another challenge.
https://www.latimes.com/california/stor ... -direction
"Everyone is entitled to their own opinion, but not their own facts." - Daniel Patrick Moynihan

Who is online

Users browsing this forum: Ahrefs [Bot], Bing [Bot], Google [Bot] and 3 guests