If they can already double the energy density of LiFePO4 in the lab and a 25kWh prototype is already in use and rated for 250km, while getting rid of cobalt and removing all the explosive hazards with a cathode base material one-tenth the price that can be made on existing lines, why is research into lithium ion even continuing for this application?
Either the story is connecting lots of dots that actually have yet to be drawn, or Big Lithium is up to shenanigans.
Take CPUs for example, ARM CPUs where kind of a joke 20 years ago, but now they are taking over X86. So its actually not bad working on competing technologies. Even about cars there is an example like that, also maybe 20 years ago battery cars where kind of a joke, while hydrogen fuelcells where all the hype back in the day. While now it seems battery is definitely winning. Although maybe in the next 20 years this turned out to be completely wrong again.
There may be an ARM “takeover” of x86 at some point, but that day is very much not today unless you believe the PC market consists solely of Macs.
The hydrogen issue seems to continue being storage. Even if you have all the green electricity you want for electrolysis, the product cannot just go in a tank at anywhere near sea-level pressure and temperature.
There may be an ARM “takeover” of x86 at some point, but that day is very much not today unless you believe the PC market consists solely of Macs.
I’d argue that overwhelming majority of people in the world use their phone as their primary computing device. ARM took over years ago.