Self-decontaminating layer-by-layer functionalized textiles based on WO3-modified titanate nanotubes. Application to the solar photocatalytic removal of chemical warfare agents

Self-decontaminating photocatalytic textiles functionalized by the layer-by-layer approach with high aspect ratio WO3-modified titanate nanotubes have been developed and successfully used under solar light illumination for the photocatalytic degradation of organophosphorous and organosulfide chemical weapon agents. This multilayer building method, unlike both dipping and spray techniques, has been efficiently applied to textile substrates using polyethyleneimine as counter polyelectrolyte for homogeneously functionalizing textiles by a thin layer of a dense network of entangled WO3-modified titanate nanotubes, and preparing self-decontaminating photocatalytic textiles highly efficient toward the removal under solar light of the yperite blister live agent and of dimethylmethylphosphonate as neurotoxic agent simulant. Solar light responsive high surface WO3-modified titanate nanotubes were synthesized by hydro-thermally treating TiO2 powder, with tungstate salt impregnation prior to the final calcination step.

Self-decontaminating layer-by-layer functionalized photocatalytic textiles exposing a thin layer of a dense network of entangled and high aspect ratio WO3-modified titanate nanotubes were successfully used under solar light illumination for the photocatalytic degradation of dimethylmethylphosphonate as neurotoxic organophosphorous agent simulant and of the blister organosulfide yperite live chemical weapon agent.Figure optionsDownload high-quality image (75 K)Download as PowerPoint slide