Researchers use electron ptychography to capture atomic vibrations in twisted 2D materials with record-breaking precision.

Topological materials are a class of materials that exhibit unique electronic properties at their boundary (surface in 3D ...

Researchers investigating atomic-scale phenomena impacting next-generation electronic and quantum devices have captured the ...

A school gym-sized facility tucked away at the University of Michigan is quietly pushing the boundaries of what lasers can do. Known as ZEUS—short for Zettawatt Equivalent Ultrashort laser pulse ...

This discovery challenges conventional thinking in quantum materials research and could serve as a foundation for the development of multifunctional quantum devices. “This is the first direct ...

Researchers use circularly polarized light to control the direction of exciton polaritons in 2D semiconductors, enabling new tools for nanoscale photonics.

In recent years, they’ve found that 2D crystals — flat lattices of atoms in which electrons can move in two directions — host a wild variety of quantum behaviors. Let’s see why the map of a 2D crystal ...

Groundwork laid for designer hybrid 2D materials New platform opens paths to custom compounds for electronic and quantum applications Date: May 30, 2025 Source: Rice University Summary: Materials ...

An international team of researchers led by Rice materials scientists has succeeded in creating a genuine 2D hybrid material called glaphene.

A recent review in npj 2D Materials and Applications highlights how 2D materials like MoS2 and graphene are enabling neuromorphic and artificial sensory devices, bridging the gap between human ...

The scalable method for creating 2D copper boride developed by Professor Mark Hersam could lead to breakthroughs in energy and computing technologies.

Applied Quantum Materials (AQM), a Canadian company headquartered in Edmonton, Alberta, is making significant strides in the field of quantum materials, with a focus on silicon quantum dots.