Technology

A conductor with no resistance is a big deal for many electrical applications. Electrical resistance is often a big part of design. Removing that aspect changes things significantly. Electrical power losses and the size of conductors can be greatly reduced.

I've read lots of unsubstantiated claims about superconductors. A solution has to be producible in quantity at a reasonable cost. Otherwise it's not going to be a breakthrough. I mean we currently have expensive and bulky superconductor solutions, but they're limited to applications where it's reasonable such as MRI machines and particle accelerators.

An inexpensive room temperature superconductor would make the most difference in tech sectors such as power transmission, electromechanical, and power electronics. These are areas where power loss due to circuit resistance is a big part of design. The impact would be minimal for computing and logic. There may be areas where power loss can be reduced, but logic relies on semi-conductors which must have resistance to function, it's in the name. The term "semi" implies resistance.

One thing that you'll definitely observe in daily life is the development of fusion reactors. They're significantly safer than regular nuclear reactors (which run on fission), and also a lot cheaper (theoretically). The current downside to fusion reactors is that up until this point, it usually takes up more energy to run it than the energy that gets produced. So in other words, it doesn't actually generate enough energy to make it worth building. Most of the energy spent is trying to keep the magnets in the reactor cold enough to function. Since room temperature superconductors should function at room temperature, there will be no need to keep them cold, so a lot of the energy spent keeping the magnets cold will become unnecessary. This will significantly improve the development of fusion reactors, to the point where it is possible that we may even see fusion reactors on our energy grid in our lifetimes. Basically, if this claim is true, you can expect that energy costs will become virtually negligible and the world will almost completely run on renewable energy

I think it'll be first used in energy transmission.

If it's actually a thing.

Better batteries, yeah. That's down the line. We will also generate heat during the actual use of any devices. But, less.

It also could become the most efficient commercial batteries, but I expect the cost will be prohibitive. Sending electricity always has a loss, but it doesn't through a superconductor, so these will have a lot of uses at power generation sites, both reducing heat and losslessly storing it (until it enters the traditional grid).

It won't directly transfer to faster tech or anything like that, but it helping quantum computing could do so indirectly.

Definitely it's more of a facilitating research kinda thing. You can't play with superconductors in a lab in a cost efficient way, but this could let you.

Also maglevs and MRI's directly use superconductors currently, so that's a direct use, lower cost MRI's and incredibly fast trains.