Just a note: Superconductivity is not only destroyed by temperature, but also by magnetic fields or a too high current. We might find a room temperature superconductor that is basically useless for energy transportation or high magnetic field applications.
Another problem: almost all known high-temperature superconductors are ceramics and thus very brittle and hard to work with.
What we want is a cheap, metallic, high temperature superconductor with a high maximum critical magnetic field and high critical max current density...
But of course any improvement could give big improvements in some applications. Having a nitrogen cooled MRI wound be awesome.
An6 form if room temp super conductor would be awesome. Like electronics will stop emitting heat and in case of ICs and microprocessors, difficulty to work with won't he an issue as you fab them.
Also school level science experiments will get more exciting
Just a note: Superconductivity is not only destroyed by temperature, but also by magnetic fields or a too high current. We might find a room temperature superconductor that is basically useless for energy transportation or high magnetic field applications.
Another problem: almost all known high-temperature superconductors are ceramics and thus very brittle and hard to work with.
What we want is a cheap, metallic, high temperature superconductor with a high maximum critical magnetic field and high critical max current density...
But of course any improvement could give big improvements in some applications. Having a nitrogen cooled MRI wound be awesome.
An6 form if room temp super conductor would be awesome. Like electronics will stop emitting heat and in case of ICs and microprocessors, difficulty to work with won't he an issue as you fab them.
Also school level science experiments will get more exciting