It’ll possibly be commercialised in ~2025, but they announced this week the first model : the BV100.
It gives 3V(, only 100μW but it’s very small and can be used in series and parallel, they’re aiming for 1W as soon as next year). 1gr. can store 3.3kWh(, ten thousand times more than lithium batteries, and 100 times more than hydrocarbons) !
It doesn’t need to be charged for 50 years, which means a truly zero-cost car for instance, even more reliably than by using solar panels ; or a phone/drone/… with infinite battery.
Furthermore, it doesn’t even produce radioactive waste since the nickel-63 turns into stable copper, so it’s even more easily recyclable than current lithium&chemical batteries, as well as more stable, being able to withstand temperatures between -60°C and 120°C.
It very likely intends to be affordable if it’s intended for commercial use, but we’ll see if they will be able to.
There must be a catch somewhere though, we’ll see in the future.

to read more : https://www.laitimes.com/en/article/6d8um_6tl5g.html

just to ‘talk about’/perceive something else than wars(, waged because of our ‘hegemonic desire’/‘opposition to peace/coexistence’,) in the future.

  • soumerd_retardataireOP
    link
    fedilink
    arrow-up
    1
    ·
    edit-2
    10 months ago

    Oh yeah, i wouldn’t advise anyone to take this breakthrough as a promise for the future(, as someone who used to read futurism.com i’m well aware of that).

    But i could counter your objections if you’re interested :

    • it can already be done currently : David Hahn built a nuclear reactor with the radioactive material extracted from clock hands. The nickel-63 is already present elsewhere(, armour plating, boat propeller shafts, …), as well as many other radioactive materials ;
    • but it’s probably not feasible : A stronger argument is that the radioactive material is composed of a layer only 2µm thick, in between two layers of diamond, i don’t know enough about the subject to confirm or deny that such extraction would be too difficult/expensive ;
    • and even if it were other materials would be a better choice : Finally, at first sight and in my ignorant opinion, i don’t think it’d add much to a bomb, it seems like it’d only infect people in the vicinity, and is only described in the first scenario here(, see the article titled “Terrorism: Nuclear and Biological Terrorism”), which considers it more useful for polluting water reserves for instance, contrary to ^137 Ce, ^131 I, ^32 P, or ^67 Ga. It’d be cheaper/easier and possibly more effective to steal such materials from hospitals rather than extracting it from batteries.

    You’d probably have to drill through more than a few of them to have enough radioactivity leaking, at this point the number of people dying because of their stress testing would probably be equivalent to those dying because of chemical batteries explosion. It’d be up to the authorities to estimate the risks correctly and, as you said, we’ll see how much a battery made to last 50 years will cost.