Synthesis of Fe-THC MOFs and functionalizing MOFs by MXenes for the selective removal of lead(ii) ions from wastewater

Abstract: Two different materials (MXene and MOFs) were combined to create novel Fe-THC/MXene composites as adsorbents. The prepared THC/MXene composites exhibited excellent adsorption capacity against lead.

“…Besides, they demonstrated that the nanocomposite adsorbed 1600 mg g −1 of lead in contaminated water. Lately, Ijaz et al 329 synthetized Fe-THC MOF as a selective adsorbent to remove lead from wastewater. They showed that the maximum sorption capability was 674 mg g −1 at 305 K and pH 4.5.…”

Design and application of metal organic frameworks for heavy metals adsorption in water: a review

“…Besides, they demonstrated that the nanocomposite adsorbed 1600 mg g −1 of lead in contaminated water. Lately, Ijaz et al 329 synthetized Fe-THC MOF as a selective adsorbent to remove lead from wastewater. They showed that the maximum sorption capability was 674 mg g −1 at 305 K and pH 4.5.…”

Design and application of metal organic frameworks for heavy metals adsorption in water: a review

Highly rapid and efficient removal of heavy metals, heavy rare earth elements, and phenolic compounds using EDTA-cross-linked MXene polymer composite: Adsorption characteristics and mechanisms

Comprehensive insights into the application of graphene-based aerogels for metals removal from aqueous media: Surface chemistry, mechanisms, and key features