The most famous example of this is "square ice." Under normal conditions, water molecules bond in hexagonal patterns (the shape of a snowflake). However, when trapped in a graphene sandwich at room temperature, the pressure forces the water into a rigid, square lattice. This is a phase of water that does not exist naturally anywhere else on the planet.
This setup generates pressures equivalent to thousands of atmospheres. Because graphene is incredibly strong and flexible, it doesn't break; instead, it forces the trapped molecules into highly ordered, two-dimensional crystals. In this environment, substances like water or salt—which we think we understand perfectly—begin to behave in ways that seem like science fiction. Making the Impossible, Possible The most famous example of this is "square ice
Here is an essay exploring how this "nanoscale laboratory" works and why it matters. This setup generates pressures equivalent to thousands of
The Alchemy of the Graphene Sandwich: Creating the Unattainable Making the Impossible, Possible Here is an essay
The high-pressure environment inside the sandwich can act as a catalyst, forcing chemical reactions that would otherwise require massive amounts of energy or heat. Conclusion
