MXene is a lightweight two-dimensional (2D) material capable of protecting everything—including spacecraft, mechanical ...

The Smart 3D Printing Research Team at KERI, led by Dr. Seol Seung-kwon has developed the world's first technology for ...

Microwave synthesis produces MXene 25x faster than traditional methods while using 75% less energy, according to new research ...

The seawater desalination based on solar-driven interfacial evaporation has emerged as a promising technique to alleviate the ...

Explore the future of MXENE 3D printing technology developed by KERI researchers for high-resolution microstructures.

An interdisciplinary team of researchers from Drexel University’s College of Engineering have introduced a new way to improve textile-based filters by coating them with a type of two-dimensional ...

The researchers report that a polyester textile coated with a titanium carbide MXene can reach approximately 90% filtration efficiency for particles as small as 15–30 nanometers—the size of ...

By using a high-throughput computational platform and scanning through the formation energies of millions of alloying configurations, researchers estimate that there are more than a million of stable ...

MXenes: Changing the World, the 3rd International MXene Conference at Drexel University, August 5-7, 2024, will focus on chemistry and physics of materials, as well as research innovations, new ...

Get Instant Summarized Text (Gist) A new technology enables high-resolution 3D microprinting using MXene, a highly conductive nanomaterial, without additives. This method, utilizing the Meniscus ...