on the surface of cellulose nanofibers, further enhancing the material's biocidal activity and electromagnetic interference ...

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 ...

The versatility of MXene materials opens new avenues for resolving future energy demands. Lithium-ion batteries are already a dominant technology in portable and flexible electronics industry. However ...

The Nanomaterials Institute specializes in the study of MXene processing and polymer compositing, and the fundamental mechanical properties of MXenes. Researchers in the DNI are interested in studying ...

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 ...

Researchers have developed a binder-free 3D printing method for MXene, enabling high-resolution microstructures with enhanced conductivity and electromagnetic shielding. MXene, first discovered in the ...

The Mo 1.74 CT z MXene-based zinc-ion batteries exhibited outstanding electrochemical performance, achieving a specific discharge capacity of 200 mAh g⁻¹ at 0.2 A g⁻¹—surpassing previously reported ...