Download This PaperPhotocatalytic and Antimicrobial Activity of Decahedron-Like Mil-125(Ti) Anchored on Agi Towards Efficient Degradation of Tetracycline:Activity Evaluation, Mechanism and Pathway
19 Pages Posted: 28 Aug 2023
Abstract
In this work, AgI nanoparticles were anchored on decahedron-like MIL-125 through wet precipitation method, and its photocatalytic activties were analyzed by tetracycline (TC) degradation rate under simulated sunlight. The structures, morphologies, valence bonds, optical absorption properties, charge separation efficiencies of the prepared samples were tested by XRD, SEM, EDS, XPS, UV-Vis DRS and PL spectroscopy. Compared with pure MIL-125(Ti), AgI@MIL-125(Ti) displayed excellent photocatalytic performance on TC degradation. When the mass fraction of AgI in AgI@MIL-125(Ti) was 10%, AgI@MIL-125(Ti)-10% displayed the best photocatalytic activity, which 96.9% of TC was removed under simulated sunlight for 30 min. The Z-Scheme heterojunction between AgI and MIL-125(Ti) promoted the separation of photogenerated charges. Furthermore, a part of Ag+ were reduced to AgNPs in the process of photocatalytic reactions, which constructed a cross-linking bridge for the charges at the interface of AgI and MIL-125(Ti) and further accelerated the electron transmission.The intermediate toxicity experiments proved that the toxic structures are destroyed in TC solution after MIL-125(Ti)-10% photocatalytic degradation, and the toxicity of the reaction system was reduced effectively.
Keywords: AgI@MIL-125(Ti), photocatalysis, Z-scheme, TC, antimicrobial activity
Suggested Citation: Suggested Citation