Nanocellulose-based solutions for water treatment

The growing and urgent demand for water and wastewater decontamination from a wide range of pollutants asks for the development of more effective and safe technologies. In this context, the design of manufactured nanomaterials (MNM) for an efficient water treatment is attracting more and more interest due to their promising adsorption performances. At the same time, MNM also raise concerns due to their potential (eco)toxicity and the uncertainty related to their final fate. For this reason, a safer-by design strategy is recommended in developing new MNM, which should combine a high decontamination efficiency with verified eco-safety 1,2. A first step in this route consists into the proper choice of starting material for the production of MNM 3. The goal of this work is to show an overview of our recent findings on how nanocellulose, simply derived from biomass as renewable source, could represent a sustainable and eco-safe solution for developing new MNM with high sorption performances for water treatment 4. 2,2,6,6-Tetramethypiperidinyloxyl (TEMPO)-oxidized cellulose nanofibers (TOCNF), bearing carboxylic groups on the C6 position of some glucopyranose units, have been produced from different sources5 and their eco-safety has been verified by an in vivo acute study with marine mussels Mytilus galloprovincialis 6. TOCNF have been successfully used both as building blocks for the design of nanostructured sorbent materials for water treatment, by thermal cross-linking with polyamine derivatives 7,8, and as suitable supports for silver nanoparticles (AgNPs), providing nano-composites with enhanced sorption performances towards heavy metals.