[repack] | Qmat

If you find yourself staring at a spreadsheet without a clear path forward, try this 3-step framework we use at QMAT:

#DataScience #LessonsLearned #QMAT

We talk a lot about "wins" in this industry—the models that predicted the trend, the algorithms that saved the day. If you find yourself staring at a spreadsheet

#DataLiteracy #Analytics #DecisionMaking #QMAT You know graphene—a single layer of carbon atoms

Unlike standard metals or semiconductors, the properties of QMats (like Superconductivity ) cannot be explained by classical physics. They often involve "strong correlations" where the behavior of one electron is inextricably linked to all others in the system. By twisting one layer just 1

You know graphene—a single layer of carbon atoms. QMAT is moving beyond carbon. We are stacking atomically thin layers of tungsten diselenide and hexagonal boron nitride like a deck of cards. By twisting one layer just 1.1 degrees relative to the other, we create "magic angle" graphene. Suddenly, a conductive metal becomes a superconductor or a magnet on command.

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