Chemical Engineering Journal Advances (Mar 2024)
Elevating oil-in-water emulsion separation: Unleashing the power of exfoliated graphitic carbon nitride composite membranes
Abstract
The current study describes composite membranes that utilise exfoliated graphitic carbon nitride (Eg-C3N4) as a promising membrane additive for oily-water separation, owing to its hydrophilic nature and high functionality. The integrated membranes have been discovered to have outstanding properties when Eg-C3N4 is used as a composite material in polysulphone (PSf) membranes. The study provides provide insights into the usage of such nanosheets to achieve good chemical interaction with the membrane matrix, enabling both Eg-C3N4 and PSf synergistic characteristics. The well-planned exfoliated g-C3N4-PSf composite demonstrated promising oil-water separation with an oil rejection capacity of >99 %. Furthermore, these exfoliated laminar planes interacted well with the polymer, resulting in membranes that were both thermally and mechanically stable. The membrane also has a high porosity range of 46.13 % to 76.03 % and a high-water uptake range of 42.23 + 1.68 % to 71.34 + 1.24 %, which explains the membrane's enhanced hydrophilicity and appropriate oily-water treatment capacity. Furthermore, the addition of Eg-C3N4 lowers surface roughness, which explains for the great antifouling capacity exhibited by the composite membrane, demonstrating a remarkable flux recovery ratio of about 99.1 % with no compromise in oil rejection during subsequent cycles.
