Posted on 12/04/2019 1:45:43 PM PST by Red Badger
The new technology has the potential to improve both the energy density and safety of lithium-ion batteries destinacigdem/Depositphotos ===============================================================
Researchers at Australia's Deakin University say they've managed to use common industrial polymers to create solid electrolytes, opening the door to double-density solid state lithium batteries that won't explode or catch fire if they overheat.
Dr. Fangfang Chen and Dr. Xiaoen Wang from Deakin's Institute for Frontier Materials claim to have made a breakthrough with "the first clear and useful example of liquid-free and efficient transportation of lithium-ion in the scientific community."
The new technology uses a solid polymer material, weakly bonded to the lithium-ion, to replace the volatile liquid solvents typically used as electrolytes in current battery cells. The liquid electrolyte is the part of the system that becomes flammable during the kinds of infamous battery fires Samsung would rather forget. "If industry implements our findings I see a future where battery reliant devices can be safely packed in airplane baggage, for example, or where electric cars dont pose a fire risk for occupants or emergency services like they currently do," Dr Chen said in a press release.
In addition to making batteries safer, the team believes this solid polymer electrolyte will finally allow batteries to work with a lithium metal anode. That would be big news in the battery world, where the lithium anode has been recently described in Trends in Chemistry as "critical to break the energy-density bottleneck of current Li-ion chemistry" the bottleneck that's stopping electric vehicles, aircraft and portable electronics from developing at the pace they should be.
Dr. Wang says this could be a way to double the energy density of lithium batteries, which, in commercial settings, are currently peaking at around 250 Wh/kg (in Tesla's Model 3 battery pack). Getting that up toward 500 Wh/kg would allow massively extended ranges, or smaller, cheaper and vastly lighter battery packs. It's not the 10X jump everyone seems to believe is coming down the pipeline, but it would be very significant.
The Deakin team says it has only used existing commercial polymers in the new process, meaning that industrial production should proceed with "little difficulty." At this stage, it's been tested in a coin cell battery, about the size of a watch battery, but the team is now moving on to building the kind of pouch cell that would be used in a mobile phone, and once that's up and running, they'll be looking for commercial partners to get these solid state cells out onto the market.
The full study is available in the peer-reviewed Joule journal.
Source: Deakin University.
Now, it is manufacturable? at scale and at a cost that the customer and consumer will pay?
Fang and Wang. You sure this is legit?
Does that mean they burn twice as hot?
They'll burn down a house in seconds flat
“Big, if true”
The pic of the coin cells is misleading, but that’s “journalism” these days.
We will continue to see improvement in energy density just as we have for the past 150 years.
Dang right!....................
Fang, wang, dang—ZZ Top would be amused.
https://www.youtube.com/watch?v=ytZrzwfJn1g&list=PL94gOvpr5yt0u3VJDCE7fHkqplc-XmPwf
2x current Li-Ion battery still only equals 1/10th energy density of gasoline.
Wake me up when they actually have a marketed product. University discoveries always have those “new” breakthroughs that don’t even pan out.
I like the Nuge, but not his music.
We are one step closer to being able to power a flux capacitor unit for Back to the Future!
Met him once in a record store..........................
If I've seen one "discovery" like this that didn't pan out, I've seen a thousand.
We will see flying cars before this "breakthrough" is commercially available.
Ive noticed a disturbing trend when reading of things like this: More often than not, the people involved have names more common to China, than the western world. I dont particularly care where people come from, but I cant help but wonder if this is Chinas way of cutting their own R&D costs.
Send their people out, get them paying jobs, and let the western world pay for the R&D and their people send the research (published or not) back home.
Kinda brilliant when you think about it.
Also
, it doesnt say much about how were educating our young.
“I like the Nuge, but not his music.”
C’mon, take a journey to the center of your mind. ;o)
and why:
https://www.amprius.com/technology/
hint: Batteries improve by making advances in chemistry and materials science.
This article is from 11/26. Here’s a related article from 11/27:
http://www.freerepublic.com/focus/f-chat/3796915/posts
Yeah, but conversion of electricity to mechanical power is a lot more efficient than conversion of heat to mechanical power.
When you factor that in, it's more like 40% of the "mpg" capability of gasoline. Still not as good, but getting closer.
And you can generate electricity with nuclear power plants.
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