A research team has reported the successful synthesis of high-purity, tunable nitrogen (N)-substituted MAX precursors and the resultant MXene two-dimensional (2D) materials—a first in the world. The ...
The increasing congestion of electronic devices and the need for electromagnetic interference (EMI) shielding demand new materials that can perform multiple functions simultaneously. However, ...
MXene thin films deliver brighter, more tunable structural colors and a wider color range than conventional materials, enabling scalable high-performance coatings for sensors, displays, and security ...
Researchers from Drexel University who discovered a versatile type of two-dimensional conductive nanomaterial, called a MXene, nearly a decade and a half ago, have now reported on a process for ...
Scientists have transformed a groundbreaking 2D nanomaterial called MXene into an even more powerful 1D form—tiny scroll-like tubes that are incredibly thin yet highly conductive. By rolling flat ...
Since the initial discovery of what has become a rapidly growing family of two-dimensional layered materials — called MXenes — in 2011, Drexel University researchers have made steady progress in ...