Highly hydrophobic cotton fabric by in-situ co-deposition of lignin/metal particles for oil/water separation

Abstract

Highly hydrophobic fabrics by chelating lignin (alkali lignin, sodium lignin sulfonate and formic acid lignin) with metal ions (Fe3+, Fe2+ and Cu2+) were prepared with the surface wettability from superhydrophilic to highly hydrophobic. The lignin/metal chelated particles are in-situ deposited onto the fabric surface using dip-coating. Different lignin/metal ion system influenced the construction of hierarchical surface roughness and energy of fabrics greatly. Specially, the formation of homogeneous spherical particles on surface contributed to the minimal contact area of water droplets and fabric, and thus avoiding their adherence. The surface morphology results showed that the active groups of lignin is closely related with the surface roughness. It was found that the alkali (AL)/FeⅢ@cotton fabric achieved a maximum water CA value of 149.9° and a low surface energy of 1.90 mN/m. Its oil-water separation efficiency was higher than 99.9% and the resultant AL/FeⅢ@cotton fabric owned an excellent stability and suitability under harsh conditions. Collectively, this work is greatly significant for achieving the high-value utilization of lignin in wastewater treatments.