Researchers from Pritzker Molecular Engineering, under the guidance of Prof. Jeffrey Hubbell, demonstrated that their compound can eliminate the autoimmune response linked to multiple sclerosis. Researchers at the University of Chicago’s Pritzker School of Molecular Engineering (PME) have developed

  • user134450@feddit.de
    link
    fedilink
    English
    arrow-up
    7
    ·
    edit-2
    1 year ago

    Looking at the price per kWh for commercial batteries tells me that we are seeing the battery revolution right now.

    Graphene is already commercially used in some applications:

    There are already very effective cures for some types of cancer (note that the differences between the many types of cancer can be huge and so the effort and time needed to create cures will also be very different. some treatments also are effective but not completely understood yet, like for bladder cancer)

    Nuclear fusion devices are commercially used in material analysis (mostly in the semiconductor industry and in ore processing). There are different types in use – some even use thermonuclear fusion on a small scale.

    It all seems like super crazy superconductor level tech until it becomes mundane and part of peoples lives … then we stop noticing how amazing it really is.

    • Hamartiogonic@sopuli.xyz
      link
      fedilink
      English
      arrow-up
      1
      ·
      1 year ago

      Oh, I’m not saying that development isn’t happening. I’m just saying that the articles you see on the magazines and papers tends to focus on wild technologies like grinding metals into nano particles and using that as a battery. Yes, New Scientis (or was it Scientific American… can’t remember) actually wrote about that stuff and predicted that cars of the future would use this energy source. Ideas like that get reported bacause they sound cool, while incremental upgrades to plain old lithium ion technology gets ignored by the tech magazines.

      I’m really looking forward to seeing graphene and carbon nano tubes being used in various applications. Scaling up your production usually is the real problem though. Even if you’re able to produce a few micrograms of something in the lab doesn’t mean you can actually turn that into a commercial product. The transition from NiMH to Li-ion seemed like that for a while until one manufacgturer (was it Sony or Philips?) took the risk and started making those batteries in massive scale. Consumers loved that, and before long everyone started using this wonderful new technology. When someone takes that risk with graphene, we’ll probably start seeing it everywhere.