A new method called vdW squeezing enables the creation of stable, atomically thin 2D metals, opening doors to advanced ...

Have you ever caught a lizard effortlessly climbing up a wall or hanging upside down on your ceiling? It's one of those odd ...

Pohang University and University of Montpellier researchers synthesize AA-stacked hBN, revealing novel stacking control ...

Van der Waals forces, once deemed too weak for structural integrity, have been shown to create stable, highly porous frameworks with exceptional thermal resilience and reversible assembly ...

Researchers demonstrate scalable integration of graphene and GaN devices using van der Waals forces, enabling high-performance CMOS-compatible electronics.

Van der Waals forces, once deemed too weak for structural integrity, have been shown to create stable, highly porous frameworks with exceptional thermal resilience and reversible assembly, paving the ...

Pioneering new research could help unlock exciting new potential to create ultrafast, laser-driven storage devices. The study ...

Although nearly 2,000 2D materials have been theoretically predicted and hundreds have been created in laboratory settings, most of these 2D materials are limited to van der Waals (vdW ...

Researchers from the Institute for Integrated Cell-Material Sciences, Kyoto University, have developed the first three-dimensional van der Waals open frameworks. This discovery challenges the ...

POSTECH and University of Montpellier researchers demonstrate wafer-scale AA-stacked hexagonal boron nitride (hBN) growth.