Google Deepmind makes an 800-year leap forward in materials physics!

Google Deepmind makes an 800-year leap forward in materials physics!

Deepmind’s GNoME AI system has created 2.2 million materials, and the most stable of them could be revolutionary. Some of them have already been manufactured.

This will interest you too

[EN VIDÉO] Physics: Plasma could revolutionize industrial production Matter is solid, liquid or gas, but there is a fourth state…

In many fields, AI provides a major boost to AI GoogleGoogle Deepmind comes to prove it once again. You have just saved science 800 years by creating new materials with revolutionary potential. This is the tool Graph networks for materials exploration (GNoME) from Deepmind is responsible. Its algorithms discovered 2.2 million new inorganic crystals and identified 380,000 of them as the most stable. From this list of stable materials, researchers began to synthesize them. Without this artificial intelligence, it would have been necessary to conduct endless experiments by researching how these materials were created. This support from GNOME has already helped manufacture 736 of them in research laboratories around the world.

Independent laboratory for collecting materials

Among these candidates we find materials that could bring about a revolution SuperconductorsSuperconductorsthe SupercomputersSupercomputers And batteries to increase the efficiency of electric vehicles. Among these discoveries are 52,000 new compounds similar to graphene. Another example: 528 possible engines forionsions LithiumLithium Which can be used to improve battery performance. The Deepmind team also collaborated with Berkeley Lab to create a Lab This allows these new crystals to be synthesized in an automated and independent manner. The robots in this laboratory have already been able to produce 41 of these new materials.

READ  Major Connection Issues in XDefiant: You're not alone, Ubisoft is taking care of this issue! | X-Box

Leave a Reply

Your email address will not be published. Required fields are marked *