In this study, PPy@Ag/rGO nanocomposites were successfully synthesized via the one-pot hydrothermal mothed using graphene oxide, pyrrole monomer and silver nitrate. The structures and morphologies of asobtained PPy@Ag/rGO ternary nanocomposites were systematically investigated by scanning electron microscopy (SEM) and transmission electron microscope (TEM). It was found that the PPy@Ag NPs were well-distributed on the reduction graphene oxide nano akes. The minimum inhibitory concentration (MIC) demonstrated that the PPy@Ag/rGO had enhanced antimicrobial e ciency with Gram-negative (Escherichia coli) bacteria compared with that at the same concentration of silver. From liquid antibacterial cycle experiments, the addition of polypyrrole contributes to the stability of nanosilver and reducing the loss of nanosilver. After several cycles, the antibacterial rate of PPy@Ag/rGO nanomaterials can still be maintained above 90%. In addition, the photocatalytic degradation of tetracycline (TC) under visible light displayed that the composite had good photocatalytic activity and catalytic stability.
Improving the photocatalytic performance of metal–organic frameworks (MOFs) is an important way to expand its potential applications. In this work, zero-dimensional (0D) Bi2O3 nanoparticles were anchored to the surface of tridimensional (3D) MIL101(Fe) by a facile solvothermal method to obtain a novel 0D/3D heterojunction Bi2O3/MIL101(Fe) (BOM). The morphology and optical properties of the as-prepared Bi2O3/MIL101(Fe) composite were characterized. The photocatalytic activity of the synthesized samples was evaluated by degrading chlortetracycline (CTC) under visible-light irradiation. The obtained BOM-20 composite (20 wt % Bi2O3/MIL101(Fe)) exhibits the highest photocatalytic activity with CTC degradation efficiency of 88.2% within 120 min. The degradation rate constant of BOM-20 toward CTC is 0.01348 min−1, which is 5.9 and 4.3 times higher than that of pristine Bi2O3 and MIL101(Fe), respectively. The enhanced photocatalytic activity is attributed to the formation of a Z-scheme heterojunction between Bi2O3 and MIL101(Fe), which is conducive to the rapid separation of photogenerated carriers and the enhancement of photogenerated electron and hole redox capacity. The intermediate products were analyzed by liquid chromatography–mass spectrometry (LC–MS), and a possible photocatalytic degradation path of CTC was proposed. This work provides a new perspective for the preparation of efficient MOF-based photocatalysts.
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