In a breakthrough that could power next-generation electronics, sensors, and energy storage devices, CMU engineers have ...

Researchers from Drexel University who discovered a versatile type of two-dimensional conductive nanomaterial, called a MXene ...

Rolling MXene sheets into scrolls at gram scale yields 33-fold conductivity gains and superconductivity at 5.2 K absent in ...

The underlying mechanism improving piezoelectricity via interfacial polarization is elucidated through combining the experimental results, molecular dynamics simulations and density functional theory ...

MXenes are an important recent discovery in two-dimensional (2D) materials research. Since the unique 2D material class was discovered, electron microscopy techniques have been the primary method used ...

Researchers have come up with a simple method to make coatings of novel 2D materials called MXenes on a range of surfaces such as fabric, plastic, and glass. Compared to MXene films made previously, ...

This crisis is largely driven by the widespread use of petroleum-based materials in electronics, which are durable but non-degradable, contributing to long-term pollution and resource depletion. To ...

A collaborative team led by Prof. Yi Xiong from Wuhan Textile University, Prof. Wei Zeng from Anhui University, and Prof. Shuo Jin from the Institute of High Energy Physics, Chinese Academy of ...