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The room temperature superconductor requires 2,7 million atmospheres pressure to work.

The room temperature superconductor requires 2,7 million atmospheres pressure to work. 

The room temperature superconductor has one problem, the material requires extremely high pressure, which makes that material stay in the form. The required pressure that is 2,7 million atmospheres is locking the methane (CH4) and hydrogen sulfur (H2S) atoms in a position that the electricity can travel without resistance. So can that thing act in real-life computers? 

The fact is that this room-temperature superconducting material (CH4)+(H2S) can inject into the fullerene tubes. And then the pressure in those fullerene tubes can rise to that level. In that case, fullerene tubes can surround by using artificial diamonds, what is grown over those tubes, and that kind of structure, where the nanotubes are traveling inside the artificial diamonds is protecting the environment against the explosions of the tubes. 

The fact is that the knowledge of the effect of pressure on that material, what is methane, and hydrogen sulfur can benefit other superconductors.  Pressure must raise to a level, which is high enough that the structure of the material can stay in the right form. And that is the problem if those (CH4)+(H2S) molecules are used in the nanotubes. The explosion is the worst problem with that kind of thing. But if we are thinking the (CH4)+(H2S) material it would have a low price. And that makes this finding very interesting. 

Sources: 

https://www.nature.com/articles/d41586-020-02895-0

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