Individual recruitments at big companies like Tesla don’t ordinarily attract outside attention.
But when, in mid-April, an exploration geologist announced on LinkedIn that he’d left Rio Tinto to join Tesla, it sparked speculation. Why a geologist? Why Tesla? What kooky plans did Elon Musk have in store now?
On Apr. 8, having complained about the skyrocketing price of lithium—an indispensable element in Tesla’s batteries—Musk suggested that his company might have to mine the metal itself. Tesla may have other plans for its new geologist, of course, but Musk isn’t the only one in his industry trying to secure supplies of metals that are essential to storage batteries and electric vehicles.
The prices of many of these metals are soaring. Lithium prices have risen nearly 500% over the past year, from $17,000 per ton to almost $80,000 per ton. Cobalt is in the same price vicinity; the cost of nickel briefly exceeded $100,000 a ton in early March. The reasons for these surges are manifold: a steep boom in demand for electric vehicles; covid-related supply chain disruptions; sanctions on Russia, which produces 15% of the purest grade of nickel.
Electric batteries are material-intensive. Lithium, for instance, is not scarce, but the average electric vehicle battery requires around 10 kg of the metal. In turn, 5.3 tons of lithium carbonate ore yield one ton of lithium. Cobalt and nickel ores, similarly, have to be clawed out of the earth and then processed heavily to achieve the requisite purity levels. The mining industry isn’t ready yet to deliver supplies of these metals in the kind of vast, purified quantities that battery manufacturers need—which means, as RJ Scaringe, the CEO of Rivian Automotive, told the Wall Street Journal, that “90% to 95% of the supply chain does not exist.”
As a result, manufacturers of electric vehicles are trying to abbreviate the supply chains of these metals by bringing their sources closer to them. Last year, General Motors invested in a lithium extraction project in California, and BMW did the same in Argentina. Volkswagen signed a binding purchase agreement for lithium from a German mine.
The prices of many of these metals are soaring. Lithium prices have risen nearly 500% over the past year, from $17,000 per ton to almost $80,000 per ton. Cobalt is in the same price vicinity; the cost of nickel briefly exceeded $100,000 a ton in early March. The reasons for these surges are manifold: a steep boom in demand for electric vehicles; covid-related supply chain disruptions; sanctions on Russia, which produces 15% of the purest grade of nickel.
Electric batteries are material-intensive. Lithium, for instance, is not scarce, but the average electric vehicle battery requires around 10 kg of the metal. In turn, 5.3 tons of lithium carbonate ore yield one ton of lithium. Cobalt and nickel ores, similarly, have to be clawed out of the earth and then processed heavily to achieve the requisite purity levels. The mining industry isn’t ready yet to deliver supplies of these metals in the kind of vast, purified quantities that battery manufacturers need—which means, as RJ Scaringe, the CEO of Rivian Automotive, told the Wall Street Journal, that “90% to 95% of the supply chain does not exist.”
As a result, manufacturers of electric vehicles are trying to abbreviate the supply chains of these metals by bringing their sources closer to them. Last year, General Motors invested in a lithium extraction project in California, and BMW did the same in Argentina. Volkswagen signed a binding purchase agreement for lithium from a German mine.
Tesla already owns the rights to a lithium claim deposit spread over 10,000 acres of Nevada. CATL, the Chinese battery manufacturer, bought a Canadian lithium mining company for nearly $300 million. And, in a reversal of roles, the mining giant Glencore bought a British battery maker last year. Quartz - link - Samanth Subramanian - link - more like this (ev batteries) - link - more like this (Tesla) - link
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