The reuse potential of spent ZIF-8@GO-COOH nano adsorption materials: Study on their impact on the hydration mechanism and mechanical properties of cement-based composites

“…Using ZIF-8@GO-COOH composite in the cement manufacturing process improve the cement's dense microstructure and pore structure, which will increase the cement's compressive strength without negatively affecting the cement's mechanical qualities. [184] Yang et al also sought a sustainable solution in a different research, consolidating the leftover ZIF-8 adsorbent into cement-based materials after treating wastewater for Cu(II) and Pb(II). This provided an inventive and eco-friendly substitute for landfill disposal.…”

ZIF‐8 Composites for the Removal of Wastewater Pollutants

“…Using ZIF-8@GO-COOH composite in the cement manufacturing process improve the cement's dense microstructure and pore structure, which will increase the cement's compressive strength without negatively affecting the cement's mechanical qualities. [184] Yang et al also sought a sustainable solution in a different research, consolidating the leftover ZIF-8 adsorbent into cement-based materials after treating wastewater for Cu(II) and Pb(II). This provided an inventive and eco-friendly substitute for landfill disposal.…”

ZIF‐8 Composites for the Removal of Wastewater Pollutants

“…22 Graphene oxide (GO) is a compound formed by introducing oxygen functional groups into graphene through an oxidation reaction, with a two-dimensional layered structure similar to graphene. 23,24 Due to its high surface area, chemical stability, good mechanical strength, and excellent solubility and dispersibility in water or organic solvents, it has been widely studied and applied in the field of adsorption. 25 The graphene oxide structure contains a large number of hydroxyl, carboxyl, aldehyde, and other oxygen functional groups, which can form hydrogen bonds with pollutant molecules in water, thereby adsorbing these pollutants and separating them from water.…”

Synthesis of magnetic UiO-66-NH₂@EDTA-GO and mechanism study of simultaneous adsorption of Pb(ii) and organic dyes from water

Effect of curing temperatures on geopolymerization and heavy metal solidification in alkali-activated zeolite/MSWI fly ash specimens