Herein, the advances of MXene-based materials since its discovery for MMIBs are summarized, with an emphasis on the rational design and controllable synthesis of MXenes. More importantly, the fundamental understanding of the relationship between the morphology, structure, and function of MXenes is ...
MXene-base materials were extensively applied in catalysts [29], [30], ion sieving [31], photothermal conversion [32], field-effect transistors [33], topological insulators [34] and hydrogen evolution reactions [35], [36], exhibiting outstanding performances. Meanwhile, as mentioned above, the...
These advances endow MXenes and MXene-based materials with superior electrochemical performance when they are used as electrodes for sodium-ion storage. MXenes, however, share similar defects with other 2D materials, such as serious restacking and aggregation, which need to be improved in ...
Transition metal-based nitrides, carbides, or carbonitrides, known as “MXenes”, are a relatively new and large family of 2D materials. Since the discovery of the first MXene, Ti3C2 in 2011 has become one of the fastest-expanding families of 2D materials with unique physiochemical features....
MXene-based materials for separator modification of Li–S batteries have been reviewed. With promising characters, such as nanosheet morphology, mechanical flexibility, high conductivity, good catalysis and strong hydrophilicity, MXene and their derivatives hold great promises as separator modifiers. The ...
Herein, this work summarizes the recent advances in MXene‐based nanostructures for high﹑erformance MIBs from lithium ion batteries to non﹍ithium (Na, K, Mg, Zn, Ca) ion batteries, in which the unique roles of MXenes as active materials, conductive substrates, and even current collectors...
Li, director of Waterloo's Printable Electronic Materials Lab, highlighted the significance of this advancement, which is the latest in the university's suite of technologies disrupting health boundaries. "AI technology is evolving rapidly, offering sophisticated signal analysis for health monitoring, foo...
The rapid development of consumer electronics, artificial intelligence, and clinical medicine generates an increasing demand for flexible pressure sensors, whose performance depends significantly on sensitive materials with high flexibility and proper co
Interestingly, on one hand, in constructing MXene-based materials with exogenous phases, this oxidation behavior needs to be suppressed. On the other hand, the oxidation behavior can be controlled precisely to synthesize derivates of MXenes. 3. Role of MXenes in Li–S batteries An ideal ...
MXene-based nanozymes have garnered considerable attention because of their potential environmental and biomedical applications. These materials encompass