Burst plasma preparation of metallic nanoparticles on carbon fabrics for antibacterial and electrocatalytic applications.

Metal nanoparticles have extraordinary properties, but their integration into mesostructures has been challenging. Producing uniformly dispersed nanoparticles attached to substrates in industrial quantities is difficult. Herein, a "plasmashock" method was developed to synthesize metal nanoparticles anchored on different types of carbonaceous substrates using liquid salt solution precursors. These self-supporting, nanoparticle-loaded carbon fabrics are mechanically robust and have been tested as antibacterial substrates and electrocatalysts for reducing carbon dioxide and nitrite. A piece of silver–carbon nanotube paper with a silver loading of ~0.13 mg cm⁻² treated after a few-second plasmashock presents good antibacterial and electrocatalytic properties in wastewater, even after 20 bactericidal immersion cycles, due to the strong bonding of the nanoparticles to the substrate. The results prove the effectiveness of this plasmashock method in creating free-standing functional composite films or membranes. A "plasmashock" method was developed to synthesize metal nanoparticles anchored on different kinds of carbonaceous substrates using liquid salt solution precursors. These self-supporting, nanoparticles-loaded carbon fabrics are mechanically robust and tested as antibacterial substrate and electrocatalysts for reducing carbon dioxide and nitrite. [ABSTRACT FROM AUTHOR]