> As for the underlying cells, it’s a similar story with a slight delay. By the end of 2025, 20 gigawatt-hours of dedicated storage cell lines had opened, and the industry is on pace to hit 96 gigawatt-hours by the end of this year.
Not really? The questin is, if South Korea stops all cooperation with the EU tomorrow, will that fab continue to be operational? If the answer is "no", then it matters. It matters a lot
This is fan fiction. The reason it matters is as a proof point that the farrago of EU regulation, labor markets, supply chains, trade policy, … is adequate to support battery production at scale.
great many things from the past 10 years would've been fan fiction, conspiracy theories, and slippery slope fallacies 20 years ago. for better or worse, this boring dystopia is not yet the end of history.
You walk in, as the EU, and assume control of the facility, by force if needed. The value is that the capacity exists within the bounds of your nation state control.
China knows this, developed countries that lost their manufacturing capacity are relearning this.
The value is not in the literal buildings, the value is in the people, the managers,engineers,etc and the owners who know how to run it.
The people who are hired and organized by the korean comapny.
This is litterlly the logic that collapsed venezuela's oil industry after it was seized by the state.
> The value is not in the literal buildings, the value is in the people
The people are physically in Europe, too. (Adding limits on remote management for national-security reasons might make sense.) If Korea and Europe get in a war, or, more likely, China pressure them, that lets the EU hold those folks until knowledge transfer can be conducted. Again, this is a strategically different place of leverage from those assets being overseas.
>The value is not in the literal buildings, the value is in the people, the managers,engineers,etc and the owners who know how to run it.
Holy shit, finally someone who understands this, this comments needs to be to the top.
Same thing happened in my ex-commie country when the communists kicked out the capitalists, shipped them to UK, US, Switzerland, and took over their factories. Over years and decades, those factories became inefficient and went bust under state control, while those capitalists who got kicked out flourished by making new business in their new homes that were business-friendly countries.
Just because you seize factories doesn't mean anything if you don't know what to do, they're just commodity equipment anyone else can buy within walls and a roof. The people with the secret-sauce know-how and IP are just as if not more valuable.
That's why US had operation Paperclip.
If you go to a TSMC factory, you'll find the same ASML EUV machines every other country and and company on the planet (minus China) has access to buy, but yet only TSMC can extract the smallest nodes and highest yields because only they managed to perfect the entire process.
I think the EU performing such an action is outside the Overton window, at least for now...
China does know that but they knew how to make the deal palatable enough for auto manufacturers (other companies too, but this one IMO is a big factor in the grand scheme[0]) to all sell out one way or another for a stake in the pie, be it cheaper manufacturing or accessing that market.
Developed countries are re-learning it but are struggling with paying the piper. By that I mean, a lot of manufacturing, especially technology based, can be dirty as heck. Doing certain widgets results in environmental costs that have to be managed or externalized[1].
[0] - I posit, that Auto manufacturers probably keep a lot of documentation around, but also have a lot of history of 'good ideas' being killed by business politics one way or another. You can glean a -lot- of manufacturing tribal knowledge being able to access any existing or new incoming data on that set of signals.
You walk in and realize that there is nothing worthwile inside. The knowledge is gone or was never even there, all the inputs are gone, the process is in shambles, all you have is four walls and some bricked machinery. What now?
For one it's a peace-time situation where strong-arming interventions are met with consequences, in this case China can stop supply of critical products to punish the Dutch. In a wartime situation such supply would've been stopped anyway, so there is nothing further to lose and everything to gain from an intervention, but such an intervention is only possible if the factory is on your soil.
Second, Nexperia is a legitimate Dutch company with Dutch expertise. The Chinese bought it. The Dutch don't need Chinese expertise to operate the local factory they built and sold to the Chinese.
Third, China is a global hegemon, South Korea isn't by comparison, and South Korea is a neighbour of China, the Netherlands isn't. China could pressure a battery factory in South Korea during a military conflict by military force, but in Western Europe that's a different story.
> if South Korea stops all cooperation with the EU tomorrow
That doesn't happen between democracies and hasn't for generations, except for one democracy recently. I don't know that it happens between any significant economies, outside of wars (when and where has it happened?), except one recently. Trade is reliable, despite the nationalist attempt to use FUD. That's how countries get access to the best products and sell their best products.
The plant will keep running regardless of events on the other side of Eurasia - during a war South Korea would want the revenue, especially from a locale safe from attack. If SK lost - an awful outcome - it wouldn't be sudden.
> That doesn't happen between democracies and hasn't for generations, except for one democracy recently.
Neoliberalism and globalization is what guaranteed this. That is, Pax Americana. The US thought it was a great idea to become the reserve currency of the world, and became a net importer to spread the dollar. The dollar hegemony gave the US great influence and it defended it with its military. Becoming a net importer hollowed out the US industrial base as it moved overseas, which was fine until China speedran owning large parts of the industrial production and exportation. They also very quickly moved up the ranks of economic and geopolitical sway.
Now the US is ditching globalization for more mercantilist policies. That means the US will be less influential in a multi-polar world, as it can no longer strongarm so easily through the dollar. Trade will become more closed off as other countries rush to do the same now that they are less supported by the US military and economic influence and need to defend themselves more.
Thus, I wouldn’t discount the possibility that the EU stops cooperating as much with SK in the future
Assuming we're talking about all countries, not only democracies: I qualified it with, 'short of war', which excludes Russia. That leaves only one that I know of.
If it does go both ways (say "EU stops all cooperation") and the effects are the same, and no one wants the factory to actually shut down, does something start to matter more/less then?
Doesn't matter if it's humans or robots, as long as they're producing batteries within reasonably stringent environmental constraints.
That being said, extremely disappointing that the world's most populous country can't be arsed to maximize battery output. They don't seem to be anywhere in the rankings.
I disagree. If the majority of workers aren’t European and the supply chain comes directly from Asia then the local ecosystem is not developed and if the Asian company pulls out there is no way to keep doing it locally.
What made you jump to American exceptionalism? Their comment doesn't even mention the US. It could've been Chinese exceptionalism for all you know, which would've been more plausible since China has such crazy numbers.
But honestly, why can't it just be a comment about the EU numbers without this weird jingoism attached?
Ford in partnership with LG is one example. Stationary storage replacing EV demand that did not materialize. Gigafactories intended for EV batteries are now for stationary storage.
Haha. Reminds me of how volt-amperes are technically the same unit as watts, but if you see VA in an electrical specification you know it means a different thing than it would if you saw W.
This is true, but it also assumes continued investment and steady progress.
We had been making some headway in terms of clean energy before the current administration started undoing a lot of that progress. And there is no telling what the next administration will do.
Those numbers include primary batteries, even though it says "durable goods". Energizer, which owns most of the US primary battery industry (Ray-O-Vac, Eveready, etc.) may account for much of that. All those AA cells add up.
The time scale here is a joke. In 2016 nobody with less than a million dollars drove EVs and the production has barely doubled since then, despite EV uptake increasing probably 100x
That basically means US batteries aren’t going in anything useful to the EV boom, otherwise there would be proportional increases
Something like the IRA but started years ago. They invest and subsidise and tax-incentivise in their own industry but do use competition within their own market to weed out losers.
Which they might very well look to neutralise in the future - humans globally need to get much much better at addressing the externalities of their consumption.
The Chinese Communist Party was willing to invest heavily to capture the solar and battery markets early on. Obama tried to counter them, but got roundly criticized for "picking favorites" and in the end the US gave away the entire industry to China.
The "dark" EV plants making cars aren't using any labour, let alone cheap labour.
There's also that thing that made China what it is today - the USofA using China for cheap labour and a place to outsource all the dirty parts of high consumption.
If you Google you will find that in fact similar headlines exist all over the place. The only problem with the HN headline is that it should have mentioned that the breaking records is for large scale batteries like grid storage and for EV batteries. Most of the many stories about this make it clearer that they are talking about the big batteries.
The graph is showing all types of batteries I believe, and that baseline is largely small batteries.
It would be totally fine to put one of those articles as the associated URL with this headline, just not the St Louis Fed chart. The HN guidelines call for HN headlines to use the same headline as the linked article, not one made up out of whole cloth. An article using this headline would likely provide additional context and detail that a simple chart does not.
It seems to be about percentage of the 2017 production. But does it measure value or volume?
Does it include lithium-based batteries? I believe they were only introduced to the market in the 1990s, but the graph goes back to 1975. Also, how many of these batteries are lead-acid based car batteries, disposable batteries for electronics, rechargeable or not, etc.
I didn't expect this post to attract interest, as my HN submissions are one of my personal bookmarking tools (and in fact the only one that I've used for more than a few months without forgetting about it). Apologies for the obscurity!
This is the physical quantity of battery output, in terms of kWh or number of batteries, probably with some weighting to correlate lithium ion to, say, lead acid batteries (though these days this output is nearly only lithium ion, I would guess).
To truly understand what's going on, there are two other series needed which are linked in the related series:
Also note that the time scale for all three are different, as they apparently started recording these at different times.
FRED data is super useful for a high level view of what's going on in various industries, I highly recommend playing with it if you're ever looking at investing or other spaces to work in!
I think you swapped some links the Value (in $) you linked here is the same as the top post (which is a real-output index), but you probably meant: https://fred.stlouisfed.org/series/A35DVS
Value, 100 equals 2017 production. Actual figures [1].
> Does it include lithium-based batteries?
Yes [2]. Chemistry agnostic.
Note, however, that in 2017 “storage battery manufacturing (NAICS 335911) and primary battery manufacturing (NAICS 335912), were combined into a single 2022 NAICS category: battery manufacturing (NAICS 335910).” So comparing across that isn’t straightforward.
Are you sure that's the data set being used in this graph? Taking 2022's value over 2017's anchored value seems to come out to a ratio far higher than any part of this graph shows for 2022. The description text also says it measures indexed real output and other graphs don't beat around the bush about being value based https://fred.stlouisfed.org/series/A35DVS
'breaking records' implies a lot more than it is. The amount of breaths anyone takes in their life also continues to break their own personal record, but it's not as impressive as it sounds.
Output today is 2x what it was 10 or 20 years ago. Nice but 'record breaking', meh. Especially in global context, it's quite tiny.
What is significant is production of batteries for grid storage. In 2020 and earlier domestic production in the US was under 10 GWh per year.
Incentives from the Inflation Reduction Act let to a big increase in that. By 2025 it was 70 GWh per year. It will be more than twice that in 2026, and will continue growing.
Of particular significance is that it now above the level needed to satisfy all of the US grid storage battery needs from domestic production.
Similar growth (again largely due to the Inflation Reduction Act) is happening with EV battery production.
This FRED series isn't directly convertible into GWh easily, but has the advantage of being having monthly numbers. Actual real world wide numbers are usually behind paywalls. As far as open sources: this March 2025 publication has these capacity numbers (presumably for 2024):
“Actual production is at about 30% of total capacity, worldwide, apparently.”
I see this as great news for the future as ramping up production to hopefully meet rising demand should be fairly easy. That is of course assuming demand gets to where it needs to be. Another year or two and the economics should simply provide that boost to demand
I think typical factory production rarely gets above 50% of capacity, IIRC. Nonetheless, factories are being built at breakneck speed in the US and other places.
The same IEA report that cited 1TWh/year in 2024 expects that number to be 3TWh/year in 2030. And given the IEA's tendency to underpredict, I'd expect 3TWh/year in 2027 at the very latest, if we're not already there.
The Sankey chart from my IEA link above shows "Other Asia" is roughly half the size of the Europe and US blobs, so roughly a 100 GWh/year estimate, making the total sum to 3TWh/year.
Asia outside of China does provide a lot of anode and cathode material to battery manufacturers.
I want a robust field of competitors that allows supply to rise to meet demand, and I would like the USA to be one of the competitors. I would like the people who do the work to earn a living wage. I do not want to benefit from overseas slave labor. If that means I have to pay more, so be it.
Could the down-voters explain their votes? In what does the observation of increased production capacity leading to lower prices insult their sensitivities that they felt the need to press that down-vote arrow? Surely you realise that the market works by balancing supply versus demand until some equilibrium is achieved? That demand partly - but not wholly - depends on price? Is it just that you (plural or singular in case of one person controlling more than one down-voting account) can't imagine a domestically-produced good to lead to lower market prices? If not, what else is it that makes my comment so irksome that it needs to be greyed out?
Since batteries are highly recyclable, a core material imported once means we never need to import it again.
Recycling is so effective that with the little that we're currently doing (not enough batteries to recycle yet), we get more battery out of the recycling process than what went in. Because the battery manufacturing is improving and getting more kWh out of the same input materials than when the battery was originally made, and the difference is bigger than anything lost to the recycling process.
Batteries and renewable energy generation are not like building an economy on fossil fuels, which is a very fragile economy vulnerable to massive spikes in input costs. Batteries and renewable energy are fundamentally anti-inflation devices.
I don't know about colonialism. I do not think that the mining companies changed. It's just that previously China exerted a lot of influence on where those minerals got processed, circumventing American markets, and enabling Chinese threats to restrict strategic minerals.in the ongoing trade disputes, etc. Generally, America should have been much more proactive and supporting of South America. Allowing Russia, Iran, and China to have inordinate influence there was a bad idea IMO.
If it's Russia, the biggest colonialist country in the world, using Neo Nazi "PMC", or trying to annex neighboring countries, it's not colonialism, it's "liberation from colonialists".
If it's China doing mass acquisitions of state and private assets, it's not colonialism, it's "development".
If it's a western country doing what ever, it's colonialism lol it's such a dumb propaganda trope.
So the conclusion is that the new western colonialism is actually looking like a pretty good option, and shouldn't have such a bad connotation, perhaps it should be embraced in this new world order no?
Just because it's easy to post doesn't mean you have to press submit on every thought that comes to your head. It's okay to admit you're working off of a very "self-taught" understanding.
Well, they've been trying to build a lithium mine in the desert in Nevada, but environmental groups have stalled it for years with lawsuits and protests.
This is why you can't build anything in America anymore.
Batteries don't have rare-earth materials in them. Lithium, nickel, and iron are very plentiful in the US. The "rarest" of materials that might be mined is Cobalt. That, however isn't because it's a hard to find. Rather, cobalt has basically no industrial applications outside of battery production. And, importantly, not all battery chemistries require cobalt, just the nickel manganese cobalt batteries.
Idaho has a cobalt mine that's not currently in operation. The reason is because demand is super low and the artisanal mines in africa are cheaper than spinning up a full industrial mine.
> Rather, cobalt has basically no industrial applications outside of battery production.
Cobalt is a part of high speed steel and all kinds of metal alloys that have specialized applications, almost 40% of cobalt is used for metallurgical purposes.
You don't need that much of foreign mined materials. The continental US has a bunch of really large lithium reserves, with Thacker Pass being supposed to be able to deliver 25% of the world's output in the end [1], and new sodium based chemistries? All they need is table salt, available for effectively free from the brine of California's desalination plants.
[1] https://reasonstobecheerful.world/us-grid-battery-storage/
[2] https://english.news18a.com/news/english_224842.html
[3] https://www.reuters.com/business/energy/europes-swelling-wav...
https://www.canarymedia.com/articles/clean-energy-manufactur...
> As for the underlying cells, it’s a similar story with a slight delay. By the end of 2025, 20 gigawatt-hours of dedicated storage cell lines had opened, and the industry is on pace to hit 96 gigawatt-hours by the end of this year.
Not sure where you're getting 300 GWh from?
[1] https://www.iea.org/data-and-statistics/charts/share-of-manu...
China knows this, developed countries that lost their manufacturing capacity are relearning this.
The people who are hired and organized by the korean comapny. This is litterlly the logic that collapsed venezuela's oil industry after it was seized by the state.
The people are physically in Europe, too. (Adding limits on remote management for national-security reasons might make sense.) If Korea and Europe get in a war, or, more likely, China pressure them, that lets the EU hold those folks until knowledge transfer can be conducted. Again, this is a strategically different place of leverage from those assets being overseas.
Holy shit, finally someone who understands this, this comments needs to be to the top.
Same thing happened in my ex-commie country when the communists kicked out the capitalists, shipped them to UK, US, Switzerland, and took over their factories. Over years and decades, those factories became inefficient and went bust under state control, while those capitalists who got kicked out flourished by making new business in their new homes that were business-friendly countries.
Just because you seize factories doesn't mean anything if you don't know what to do, they're just commodity equipment anyone else can buy within walls and a roof. The people with the secret-sauce know-how and IP are just as if not more valuable.
That's why US had operation Paperclip.
If you go to a TSMC factory, you'll find the same ASML EUV machines every other country and and company on the planet (minus China) has access to buy, but yet only TSMC can extract the smallest nodes and highest yields because only they managed to perfect the entire process.
I think the EU performing such an action is outside the Overton window, at least for now...
China does know that but they knew how to make the deal palatable enough for auto manufacturers (other companies too, but this one IMO is a big factor in the grand scheme[0]) to all sell out one way or another for a stake in the pie, be it cheaper manufacturing or accessing that market.
Developed countries are re-learning it but are struggling with paying the piper. By that I mean, a lot of manufacturing, especially technology based, can be dirty as heck. Doing certain widgets results in environmental costs that have to be managed or externalized[1].
[0] - I posit, that Auto manufacturers probably keep a lot of documentation around, but also have a lot of history of 'good ideas' being killed by business politics one way or another. You can glean a -lot- of manufacturing tribal knowledge being able to access any existing or new incoming data on that set of signals.
[1] - No, we should not externalize, to be clear.
You had something: production. Now you have nothing.
For one it's a peace-time situation where strong-arming interventions are met with consequences, in this case China can stop supply of critical products to punish the Dutch. In a wartime situation such supply would've been stopped anyway, so there is nothing further to lose and everything to gain from an intervention, but such an intervention is only possible if the factory is on your soil.
Second, Nexperia is a legitimate Dutch company with Dutch expertise. The Chinese bought it. The Dutch don't need Chinese expertise to operate the local factory they built and sold to the Chinese.
Third, China is a global hegemon, South Korea isn't by comparison, and South Korea is a neighbour of China, the Netherlands isn't. China could pressure a battery factory in South Korea during a military conflict by military force, but in Western Europe that's a different story.
That doesn't happen between democracies and hasn't for generations, except for one democracy recently. I don't know that it happens between any significant economies, outside of wars (when and where has it happened?), except one recently. Trade is reliable, despite the nationalist attempt to use FUD. That's how countries get access to the best products and sell their best products.
> Trade is reliable
"reliable except when it isn't" is just a convoluted way of saying "unreliable"
Neoliberalism and globalization is what guaranteed this. That is, Pax Americana. The US thought it was a great idea to become the reserve currency of the world, and became a net importer to spread the dollar. The dollar hegemony gave the US great influence and it defended it with its military. Becoming a net importer hollowed out the US industrial base as it moved overseas, which was fine until China speedran owning large parts of the industrial production and exportation. They also very quickly moved up the ranks of economic and geopolitical sway.
Now the US is ditching globalization for more mercantilist policies. That means the US will be less influential in a multi-polar world, as it can no longer strongarm so easily through the dollar. Trade will become more closed off as other countries rush to do the same now that they are less supported by the US military and economic influence and need to defend themselves more.
Thus, I wouldn’t discount the possibility that the EU stops cooperating as much with SK in the future
russia and {ukraine, georgia, etc}?
That being said, extremely disappointing that the world's most populous country can't be arsed to maximize battery output. They don't seem to be anywhere in the rankings.
But honestly, why can't it just be a comment about the EU numbers without this weird jingoism attached?
U.S. battery industry cuts losses, shifts to new ventures amid EV bust - https://www.dallasfed.org/research/economics/2026/0303 - March 3rd, 2026
volt-amperes are joules
https://en.wikipedia.org/wiki/Watt
https://en.wikipedia.org/wiki/Volt-ampere
Have you all seen the specs of the new BYD Blade 2.0?
https://www.evinfrastructurenews.com/ev-battery/byd-blade-ba...
We had been making some headway in terms of clean energy before the current administration started undoing a lot of that progress. And there is no telling what the next administration will do.
That basically means US batteries aren’t going in anything useful to the EV boom, otherwise there would be proportional increases
There's nothing preventing others from also processing concentrates (the post physical mining product).
The mining aspect is hardly monopolised either - much is sourced from Australia, South America, etc.
Put in an order, buy a 49% share of a resource company and now you're part of the action.
Pre-1978, not now.
Have a chat with deep seek about the goals of the CCP. When you run local models you run socialism.
There's also that thing that made China what it is today - the USofA using China for cheap labour and a place to outsource all the dirty parts of high consumption.
China's moved on, US perceptions haven't.
Yes, yes, line go up. This is probably good. But the headline only exists on HN.
The graph is showing all types of batteries I believe, and that baseline is largely small batteries.
It seems to be about percentage of the 2017 production. But does it measure value or volume?
Does it include lithium-based batteries? I believe they were only introduced to the market in the 1990s, but the graph goes back to 1975. Also, how many of these batteries are lead-acid based car batteries, disposable batteries for electronics, rechargeable or not, etc.
This is the physical quantity of battery output, in terms of kWh or number of batteries, probably with some weighting to correlate lithium ion to, say, lead acid batteries (though these days this output is nearly only lithium ion, I would guess).
To truly understand what's going on, there are two other series needed which are linked in the related series:
- Producers' price index, how much the manufacturers are charging per unit of batteries https://fred.stlouisfed.org/series/PCU335911335911
- Value (in $) of shipped batteries (roughly price * volume): https://fred.stlouisfed.org/series/A35DVS (thanks for the correction, laser!)
Also note that the time scale for all three are different, as they apparently started recording these at different times.
FRED data is super useful for a high level view of what's going on in various industries, I highly recommend playing with it if you're ever looking at investing or other spaces to work in!
Value, 100 equals 2017 production. Actual figures [1].
> Does it include lithium-based batteries?
Yes [2]. Chemistry agnostic.
Note, however, that in 2017 “storage battery manufacturing (NAICS 335911) and primary battery manufacturing (NAICS 335912), were combined into a single 2022 NAICS category: battery manufacturing (NAICS 335910).” So comparing across that isn’t straightforward.
[1] https://www.federalreserve.gov/releases/g17/Current/ipdisk/g...
[2]
[x] https://www.federalreserve.gov/releases/g17/revisions/Curren...
honestly, this is somewhat of a proof it works, you can basically extend it to various sectors
Output today is 2x what it was 10 or 20 years ago. Nice but 'record breaking', meh. Especially in global context, it's quite tiny.
Incentives from the Inflation Reduction Act let to a big increase in that. By 2025 it was 70 GWh per year. It will be more than twice that in 2026, and will continue growing.
Of particular significance is that it now above the level needed to satisfy all of the US grid storage battery needs from domestic production.
Similar growth (again largely due to the Inflation Reduction Act) is happening with EV battery production.
- US: 200 GWh/year cell production capacity, 750 GWh/year planned additions [1]
- EU: 200GWh/year cell production capacity, 350 GWh/year planned additions [1]
IEA estimates 3TWh/year total world cell capacity in 2024 (not production, but capacity). So let's guess that China had ~2.5 TWh/year back in 2024.
Actual production is at about 30% of total capacity, worldwide, apparently.
[1] https://www.bruegel.org/analysis/transatlantic-clean-investm...
[2] https://www.iea.org/reports/global-ev-outlook-2025/electric-...
I see this as great news for the future as ramping up production to hopefully meet rising demand should be fairly easy. That is of course assuming demand gets to where it needs to be. Another year or two and the economics should simply provide that boost to demand
Asia outside of China does provide a lot of anode and cathode material to battery manufacturers.
Coincidentally, I started doing pushups yesterday, today is the second day in a row I break my high mark
Yesterday= 1
Today= 2 (+100%!!!)
Recycling is so effective that with the little that we're currently doing (not enough batteries to recycle yet), we get more battery out of the recycling process than what went in. Because the battery manufacturing is improving and getting more kWh out of the same input materials than when the battery was originally made, and the difference is bigger than anything lost to the recycling process.
Batteries and renewable energy generation are not like building an economy on fossil fuels, which is a very fragile economy vulnerable to massive spikes in input costs. Batteries and renewable energy are fundamentally anti-inflation devices.
If it's Russia, the biggest colonialist country in the world, using Neo Nazi "PMC", or trying to annex neighboring countries, it's not colonialism, it's "liberation from colonialists".
If it's China doing mass acquisitions of state and private assets, it's not colonialism, it's "development".
If it's a western country doing what ever, it's colonialism lol it's such a dumb propaganda trope.
So the conclusion is that the new western colonialism is actually looking like a pretty good option, and shouldn't have such a bad connotation, perhaps it should be embraced in this new world order no?
This is why you can't build anything in America anymore.
Batteries don't have rare-earth materials in them. Lithium, nickel, and iron are very plentiful in the US. The "rarest" of materials that might be mined is Cobalt. That, however isn't because it's a hard to find. Rather, cobalt has basically no industrial applications outside of battery production. And, importantly, not all battery chemistries require cobalt, just the nickel manganese cobalt batteries.
Idaho has a cobalt mine that's not currently in operation. The reason is because demand is super low and the artisanal mines in africa are cheaper than spinning up a full industrial mine.
Just want to say this is an entertaining euphemism. It isn’t that labor conditions are poor and work is done by hand, it’s “artisanal mining”.
Cobalt is a part of high speed steel and all kinds of metal alloys that have specialized applications, almost 40% of cobalt is used for metallurgical purposes.
https://en.wikipedia.org/wiki/Cobalt#Applications
[1] https://en.wikipedia.org/wiki/Thacker_Pass_lithium_mine