Advancements in CoFe-LDH catalysts using engineered MXenes demonstrate improved OER efficiency, crucial for scalable clean ...

A new gas-assisted electrochemical exfoliation method produces halogen-terminated MXenes with improved conductivity and wear ...

Innovative N-substituted MXenes synthesized with unmatched conductivity offer new solutions for electromagnetic interference ...

Green hydrogen is set to play an important role in the future energy system: it can be used for storing chemical energy, as a ...

A research team has reported the successful synthesis of high-purity, tunable nitrogen (N)-substituted MAX precursors and the ...

Researchers at Drexel University discovered MXenes, a new family of 2D materials, in 2010. The scientists soon found ways to prepare what seemed like endless chemical compositions of these ...

A new class of materials known as MXenes may be able to offer just that functionality, with microscopically thin films serving as shields that can be switched on and off at will. A Faraday cage ...

Researchers announced the successful synthesis of high-purity, tunable nitrogen-substituted MAX precursors and the resultant ...

MXenes are made of atomically thin layers of transition metal carbides, nitrides or carbonitrides. They originate in what's called the MAX phase, whose name describes its signature components: the ...

Materials scientists are exploring the physical properties of MXenes, a fast-growing family of two-dimensional materials with potential for many nanotechnology applications. A research team led by ...

Although MXenes are two-dimensional materials, the interaction that is the basis of their chemical, electrochemical, and catalytic properties — whether it’s ultrafast storage of electrical energy, ...