Researchers at the California NanoSystems Institute at UCLA published a step-by-step framework for determining the ...

For many decades, the method to obtain atomic-level descriptions of chemical compounds and materials—be it a drug, a catalyst ...

Using a superconducting quantum computer, physicists created a large and complex version of an odd quantum material that has ...

Wafer breakage is the most serious impact of killer crystalline defects. About 0.1 to 0.2% of silicon wafers break. The ...

Chinese scientists have discovered ultratiny, "linear" boundaries inside three-dimensional crystals that could eventually ...

Scientists from the RIKEN Center for Emergent Matter Science and colleagues have developed a new way to fabricate three-dimensional nanoscale devices ...

Researchers show hafnium stannide can host graphene-like electron flow in a robust 3D structure, paving the way for scalable ...

New nanosculpting method creates 3D single-crystal devices with switchable diode behaviour for low-power electronics.

University of Liverpool researchers have discovered a way to host some of the most significant properties of graphene in a three‑dimensional (3D) material, potentially removing the hurdles for these ...

Scientists have developed a new method for creating three-dimensional nanoscale devices directly from single crystal materials, potentially transforming the future of electronics.

Physicists have turned a long-standing imaging workhorse into a kind of nanoscale chisel, using a razor-precise ion beam to ...