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 ...

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

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

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

MXenes are flaky structures made of carbon and so-called transition metals. Catalytically active particles can adhere to the inner surfaces of MXenes, thereby enhancing their catalytic effect.

An international team led by HZB chemist Michelle Browne conducted a rigorous investigation that demonstrated the potential ...

Abstract Broadband and ultrathin electromagnetic interference (EMI)-shielding materials are crucial for efficient high-frequency data transmission in ...

World history already knows several examples of prominent and gifted Ukrainians who have achieved important scientific ...