Explore how graphene-based self-cleaning filters are transforming air, fuel, and water systems in aerospace. From pathogen control to fuel purity, graphene offers durable, scalable solutions.

An international team, co-led by UC Santa Cruz physicist Jairo Velasco, Jr., has answered the question of where patterns emerge from chaos. The team described an experiment that validates a theory ...

The single-layer graphene, just one atom thick, proved to be an ideal ... a Nobel Prize and catalyzed innovations such as electron microscopy. Over the decades, the quest to replicate this effect ...

That's because the countless electrons in a metal like gold or silver move more or less freely from one atom ... samples under the Basov lab's scanning near-field optical microscope (s-SNOM ...

Scientists have developed a scalable method to produce porous graphene membranes that efficiently separate carbon dioxide. The breakthrough could significantly reduce the cost and footprint of carbon ...

To this day, copper oxides remain the only superconducting oxides that function at temperatures above 30 K, or about minus 243°C, under ambient pressure, without requiring lattice compression.

For instance, a single-atom-thick sheet of carbon, known as graphene, is far stronger and more conductive than the graphite in pencil tips.

Let’s face it, the modern-day referee is under more pressure than ever before ... What it has become, however, is a microscope—an unforgiving, slow-motion, multi-angle, zoom-enhanced ...

Manchester’s graphene reputation is also attracting international attention. Canadian-headquartered HydroGraph Clean Power, ...

Attribution (BY): Credit must be given to the creator. Transmission electron microscopy (TEM) is well-known for performing in situ studies in the nanoscale. Hence, scientists took this opportunity to ...