Enhancing the Ag-loading capacity on Ti₃C₂T_x sheets as hybrid fillers to form composite coatings with excellent antibacterial properties

Abstract: The settlement of microorganisms is an unwanted process in various practical fields, where also the first attaching microorganisms could promote other bacterial adhesion, causing an acceleration of bioaccumulation on the solid surface and damage to the surface functions.

“…Here, MXene with a large specific surface acts as a carrier for Ag nanoparticles, showing excellent antibacterial performance and cellulose was used to enhance the stability of MXene and to increase the anchor points to grasp the Ag nanoparticles. [63] In general, the surface modification of MXenes and the creation of similar composites which improve their biocompatibility makes such approach very perspective for the use in biological systems. However, the issue of biocompatibility of MXenes is closely related to process of biodegradation which will be considered in the next section.…”

Potential Biosafety of Mxenes: Stability, Biodegradability, Toxicity and Biocompatibility

“…Here, MXene with a large specific surface acts as a carrier for Ag nanoparticles, showing excellent antibacterial performance and cellulose was used to enhance the stability of MXene and to increase the anchor points to grasp the Ag nanoparticles. [63] In general, the surface modification of MXenes and the creation of similar composites which improve their biocompatibility makes such approach very perspective for the use in biological systems. However, the issue of biocompatibility of MXenes is closely related to process of biodegradation which will be considered in the next section.…”

Potential Biosafety of Mxenes: Stability, Biodegradability, Toxicity and Biocompatibility