A self-supported sodium alginate composite hydrogel membrane and its performance in filtering heavy metal ions

A novel self-supported polysaccharide based hydrogel membrane was prepared by adding cellulose nanofiber (CNF) and micron-sized biochar (BC) into sodium alginate (SA) hydrogel with in-situ free water evaporation ("cooking") process and ionic crosslinking, in which the polyethylene glycol (PEG) was used as a pore-forming agent. Herein, CNF can not only enhance the mechanical property of the matrix, but also assist the homogeneous dispersion of BC. As a result, the prepared membrane had a maximum tensile strength of up to 5.69 MPa, which was more than 2-3 times higher than the previously reported self-supported hydrogel membranes. The flux reached 61.5 Lm-2 h-1 under 0.35 MPa pressure, and the anti-fouling property was also excellent due to its hydrophilicity. In filtration tests, the rejection of Cr (III) and Cr (VI) of 50 mg/l could reach 96.8 % and 91.4 %, respectively. Moreover, the mechanism behind the exceptional high rejection for both cationic and anionic heavy metal was delineated.