Layer-by-Layer Extracellular Biological Synthesis of Sustainable Ag-Based Nanoparticles for Catalytic Reduction of Methylene Blue Dye

Abstract: Novel cubic microstructures for the purposes of plasmonic Ag-based NPs were made using biological wastes produced from a microbial culture of Bacillus cereus (B. cereus) employing a bottom-up approach for the biosynthesis of metal-based nanomaterials. The unique surface plasmon resonance (SPR) of the as-prepared Ag-based NPs was detected at 405 nm. The infra-red spectrum revealed that the used biological waste effectively stabilized our Ag-based NPs. Scanning and transmission electron microscopes were used in … Show more

“…The catalytic activity study of the laser-irradiated samples was performed at room temperature (25 ± 2 °C) using the reaction of MB dye with sodium borohydride in dark conditions, following amended method reported elsewhere 62 – 64 . That is, the laser-synthesized SDS-capped AgNPs catalytic activity was examined for the reduction of aqueous MB to Leuco–MB in the presence of excess NaBH 4 .…”

Quick methylene blue dye elimination via SDS-Ag nanoparticles catalysts

“…The catalytic activity study of the laser-irradiated samples was performed at room temperature (25 ± 2 °C) using the reaction of MB dye with sodium borohydride in dark conditions, following amended method reported elsewhere 62 – 64 . That is, the laser-synthesized SDS-capped AgNPs catalytic activity was examined for the reduction of aqueous MB to Leuco–MB in the presence of excess NaBH 4 .…”

Quick methylene blue dye elimination via SDS-Ag nanoparticles catalysts

Green hydrogen photoelectrochemically produced from Red Sea water using a photocathode dichalcogenides (CoS2)-CoO/Poly-2-aminothiophenol nanocomposite with moon-like shape

Modified PU sponge for water purification