Abstract
Metal-organic frameworks (MOFs) were adaptable templates that might be used to create multifunctional materials containing carbon nanostructures. In this work, we had prepared a novel Cu-MOF using fumaric acid (H2FA) and N,N′-bis(pyridin-3-yl)isophthalamide (3-bpia) as the mixed ligands. Then, the Cu-MOF was served as a template to derive bimetallic-based carbon nanomaterials by introducing a second metal through doped ZnO by both re-calcined and directly calcined methods (Cu@Zn@800) and single-metal-based carbon nanomaterials (Cu@800). Cu@Zn@800 was able to catalyze the degradation of azo dyes at a rate higher than 99.40 % because of its capacity to create h+ and ·OH active substances and the uniformity of its metal active sites. Additionally, Cu@Zn@800 might use NaBH4 to decrease 4-NP in 30 s with the rate of decline was over 100 %. Cu@Zn@800 was a special and efficient dual-functional material that might be used in a variety of ways to remove contaminants from water.
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