Just because this method of synthesizing the KL-66 room-temperature superconducting material simply refreshed his knowledge.

In the first step, pyrite is synthesized through a chemical reaction. Lead oxide and lead sulfate powders are evenly mixed in a ceramic crucible at a ratio of 50% each. The mixed powder is heated in a furnace at 725 degrees Celsius in the presence of air.

24 hours. During the heating process, the mixture undergoes a chemical reaction to produce pyrite.

The second step is to synthesize cuprous phosphide crystals. Mix copper and phosphorus powder in a crucible according to the proportion. Seal the mixed powder in a thyristor of 20 cm per gram, with a vacuum degree of 10 -3 tor. Mix the powder containing

Sealed tubes of the powder are heated in a furnace at 550 degrees Celsius for 48 hours, during which time the mixture reacts and forms cuprous phosphide crystals.

The third step is to grind the pyrite and cuprous phosphide crystals into powder, mix them in a crucible, and then seal them into the thyristor with a vacuum degree of 10 -3 power. Place the sealed tube containing the mixed powder in

Heating in a furnace at 925 degrees Celsius for 5-20 hours. During this process, the sulfur element in the lead sulfate evaporates during the reaction, and the mixture reacts and transforms into the final material, KL-66.

This chapter is not finished yet, please click on the next page to continue reading the exciting content! Not to mention the three steps, the synthesis process is extremely simple, and the raw materials can be found everywhere.

According to the methods and steps given in the paper, the synthesis method of this new material is undoubtedly similar to "hand rubbing".

That's right, you can actually rub it with your hands.

If this method can really synthesize room temperature superconducting materials, then even he can't help but wonder whether the technological tree that mankind has established in the field of materials is completely crooked.

The synthesis method and materials of this superconducting material are a bit too ‘cheap’.

........

Of course, Xu Chuan did not immediately deny that this room temperature superconducting material called KL-66 was fake.

No matter how outrageous or crude its synthesis process is, it requires rigorous and multiple experiments to confirm or disprove it.

And to be honest, in the field of materials, it is not impossible for something similar to happen.

After all, with just a piece of tape, you can stick the most versatile material in the world, graphene, and win the Nobel Prize. This is something that has really happened in history.

If you tell people about this kind of thing, they will just think that it is a novel written by a dog author who does not understand science.

After all, it's a bit too outrageous.

The same goes for South Korea's KL-66 material. Even though its synthesis process seems a bit outrageous and crude, in the field of materials, it is not impossible.

Sometimes, maybe you can put a "koi" who is extremely lucky and knows nothing about materials into the project team, and maybe it can bring you good luck and produce something that can make you happy in the blink of an eye.

New materials to provide you with food and clothing for the rest of your life.

Materials, this is probably a field that, apart from experience, is entirely Ou Huang's domain.
Chapter completed!