Carboxymethyl Cellulose/Copper Oxide–Titanium Oxide Based Nanocatalyst Beads for the Reduction of Organic and Inorganic Pollutants

In this work, we have developed novel beads based on carboxymethyl cellulose (CMC) encapsulated copper oxide-titanium oxide (CuO-TiO(2)) nanocomposite (CMC/CuO-TiO(2)) via Al(+3) cross-linking agent. The developed CMC/CuO-TiO(2) beads were applied as a promising catalyst for the catalytic reduction of organic and inorganic contaminants; nitrophenols (NP), methyl orange (MO), eosin yellow (EY) and potassium hexacyanoferrate (K(3)[Fe(CN)(6)]) in the presence of reducing agent (NaBH(4)). CMC/CuO-TiO(2) nanocatalyst beads exhibited excellent catalytic activity in the reduction of all selected pollutants (4-NP, 2-NP, 2,6-DNP, MO, EY and K(3)[Fe(CN)(6)]). Further, the catalytic activity of beads was optimized toward 4-nitrophenol with varying its concentrations and testing different concentrations of NaBH(4). Beads stability, reusability, and loss in catalytic activity were investigated using the recyclability method, in which the CMC/CuO-TiO(2) nanocomposite beads were tested several times for the reduction of 4-NP. As a result, the designed CMC/CuO-TiO(2) nanocomposite beads are strong, stable, and their catalytic activity has been proven.