Cu₉S₅ and Cu₉S₅@UiO-66-NH₂ composites exhibit excellent Fenton-like photocatalytic activities for the degradation of organic contaminants

Abstract: The development of advanced catalysts is essential to efffcient elimination of the emerging organic pollutants in water. Herein, Cu9S5 and Cu9S5@UiO-66-NH2 were prepared and all exhibited high Fenton-like photocatalytic activities...

“…In addition to the combination with traditional 2D materials, Cu 9 S 5 @UiO-66-NH 2 composites also exhibit excellent Fenton-like photocatalytic activity for Congo red and Rhodamine B. Although the light absorption range of the composite catalyst is only slightly expanded, the higher specific surface area of UiO-66-NH 2 can provide more active sites for the reaction, which is more favorable for the photocatalytic reaction …”

“…Although the light absorption range of the composite catalyst is only slightly expanded, the higher specific surface area of UiO-66-NH 2 can provide more active sites for the reaction, which is more favorable for the photocatalytic reaction. 182 In addition to binary selenides, the use of ternary selenides to improve the photocatalytic performance of traditional semiconductors is also a good way. Using Cu 2−x Se as a precursor, the composite of CuAgSe combined with TiO 2 greatly improved the degradation efficiency of formic acid.…”

Design, Synthesis, and Diverse Applications of Cu-Based Photocatalysts: A Review

“…In addition to the combination with traditional 2D materials, Cu 9 S 5 @UiO-66-NH 2 composites also exhibit excellent Fenton-like photocatalytic activity for Congo red and Rhodamine B. Although the light absorption range of the composite catalyst is only slightly expanded, the higher specific surface area of UiO-66-NH 2 can provide more active sites for the reaction, which is more favorable for the photocatalytic reaction …”

“…Although the light absorption range of the composite catalyst is only slightly expanded, the higher specific surface area of UiO-66-NH 2 can provide more active sites for the reaction, which is more favorable for the photocatalytic reaction. 182 In addition to binary selenides, the use of ternary selenides to improve the photocatalytic performance of traditional semiconductors is also a good way. Using Cu 2−x Se as a precursor, the composite of CuAgSe combined with TiO 2 greatly improved the degradation efficiency of formic acid.…”

Design, Synthesis, and Diverse Applications of Cu-Based Photocatalysts: A Review