One of the last remaining unshrinkable obstacles blocking the progress of fully integrated, wearable technology is the clunky component that absorbs and disburses stray electricity and converts ...

Researchers at Boise State University have developed a stable, high-performance Ti 3 C 2 T x MXene ink formulation optimized for aerosol jet printing—paving the way for scalable manufacturing of micro ...

Three different typical MXene electrodes, i.e., Nb2C, Ti2C and Ti3C2, are investigated upon their electrochemical behaviors for aqueous K-ion storage, featuring with pseudocapacitive-dominated ...

Scientists at Germany’s Helmholtz Zentrum Berlin have made a discovery they say could greatly increase the energy storage capacity of titanium-based ‘MXene’ pseudocapacitors, ultimately leading to ...

Single MXene flakes show two electrolyte dependent redox pathways, clarifying nanoscale charge transfer and guiding development of fast pseudocapacitors. (Nanowerk News) MXene materials are promising ...

Two-dimensional MXene has been a rising star in the energy world as this material can store energy fast. But their unstable voltage output limits their applications. A collaborative research team has ...