High conductive rGO sheets fabricated by mild, low-cost and scalable plasma-triggered reduction-exfoliation of 3D aerogel-like graphene oxide

“…DCSBD plasma has proven to be an excellent tool for rapidly modifying surfaces for numerous applications, including the treatment of mesoporous electron transporting TiO 2 layers in perovskite solar cells, 33,34 low-temperature calcination of TiO 2 35 and ZnO 36 photocatalytic nanofibers and rapid fabrication of highly conductive sheets of reduced graphene oxide. 37 Furthermore, DCSBD enables integration into atmospheric R2R with the possibility of upscaling the width of the treatment area up to 1 m or more. 38 The high-power-density plasma (up to 100 W cm −3 ) generated using DCSBD considerably shortens the treatment time to obtain the same results as those obtained from composites prepared using conventional high-temperature processing methods.…”

Nanocrystalline TiO₂/Ti₃C₂T_x MXene composites with a tunable work function prepared using atmospheric pressure oxygen plasma

“…DCSBD plasma has proven to be an excellent tool for rapidly modifying surfaces for numerous applications, including the treatment of mesoporous electron transporting TiO 2 layers in perovskite solar cells, 33,34 low-temperature calcination of TiO 2 35 and ZnO 36 photocatalytic nanofibers and rapid fabrication of highly conductive sheets of reduced graphene oxide. 37 Furthermore, DCSBD enables integration into atmospheric R2R with the possibility of upscaling the width of the treatment area up to 1 m or more. 38 The high-power-density plasma (up to 100 W cm −3 ) generated using DCSBD considerably shortens the treatment time to obtain the same results as those obtained from composites prepared using conventional high-temperature processing methods.…”

Nanocrystalline TiO₂/Ti₃C₂T_x MXene composites with a tunable work function prepared using atmospheric pressure oxygen plasma

Exploring graphene's antibacterial potential for advanced and sustainable solutions in water treatment