A team of Korean researchers has developed a technology that enables the deliberate alteration of the structure and functionality of the next-generation advanced material 'MXene' by adjusting its ...
The porous network formed by the vertical growth of flower-like LDH on the surface of MXene ingeniously mimics the natural structure of coral reefs. When this composite material is used as a stealth ...
Researchers used AI-guided electron microscopy to map atomic-level point defects in 3D within ultrathin MXene layers, advancing energy storage and electronics. By closing the knowledge gap regarding a ...
It is found that the reconstruction of the electronic environment and the optimization of the electromagnetic attenuation mechanism are achieved by constructing a model of metal–support interaction ...
In a breakthrough that could power next-generation electronics, sensors, and energy storage devices, CMU engineers have developed a fabrication technique that arranges MXene nanosheets, each a million ...
A research team in Spain has built what it claims to be the world’s most efficient perovskite solar cell using MXenes or any other type of 2D-materials. The device relies on a Mxene interlayer that ...
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