Strategies to modify the structure of thin‐film composite membranes for advanced separation of metronidazole antibiotic from wastewater

Abstract: In this research, thin-film composite (TFC) membranes were used for separating metronidazole antibiotic from effluents. In order to enhance the metronidazole separation performance, thin-film nanocomposite (TFNC) membranes containing copper sulfide nanoparticles as well as modified thin-film nanocomposite (MFTNC) membranes containing copper sulfide nanoparticles coated with acrylic acid were employed. The spherical morphology of CuS nanoparticles along with the acrylic acid chains coated on their surface was c… Show more

“…5g). 40–74 In addition, rGOFpl foam was used to purify the aqueous solution containing the artificial dye Rhodamine B. It was found that the UV vis characteristic peak of Rhodamine B in condensed and collected water at 570 nm disappeared after purification, and the purification efficiency was close to 100% with the color of the solution changing from pink to colorless, as shown in Fig.…”

Interfacial charge transfer weakens hydrogen bonds between water molecules to accelerate solar water evaporation

“…5g). 40–74 In addition, rGOFpl foam was used to purify the aqueous solution containing the artificial dye Rhodamine B. It was found that the UV vis characteristic peak of Rhodamine B in condensed and collected water at 570 nm disappeared after purification, and the purification efficiency was close to 100% with the color of the solution changing from pink to colorless, as shown in Fig.…”

Interfacial charge transfer weakens hydrogen bonds between water molecules to accelerate solar water evaporation

Breaking down process barriers: ZnSe/CdSe composite catalysts drive enhanced catalytic properties and modified membrane structures for removing humic acid from aqueous environments

Synergistic effects of ZIF-8 and ZIF-67 in bilayer membranes on separation tuning of pH- sensitive antitumor drug