Sensitization of TiO2 nanosheets with Cu–biphenylamine framework to enhance photocatalytic degradation performance of toxic organic contaminants: synthesis, mechanism and kinetic studies

Abstract

TNS/Cu(X) composite materials were firstly synthesized via simple overnight stirring of TNS in the methanolic solution of Cu complexes. The developed TNS/Cu(X) composites had a well-designed nanostructure, in which the TNS and Cu complexes were closely bounded with each other. The biphenylamine complexes fixed on the TNS surface in form of nanocapsules, which were confirmed by TEM and SEM, thus improving the surface area and subsequently charge separation. Innovatively merged photocatalysts of Cu complexes with TNS were successfully verified for photocatalytic mineralization of colored and colorless organic contaminants under the visible light degradation. As compared to original TNS, TNS/Cu(BA) showed prominent improvement in the catalytic actions. Kinetics i.e. t1/2 (half-life times period), Kapp, and R2 (linear regression co-efficient) were also studied. The amended materials created charge separation, by means of electrons gathering at the higher CB, and holes gathering at the lower level valence band of the Cu complex, therefore improving mineralization efficiency of the electrons and holes. TNS/Cu(BA) degrade 99%–99.6% of methyl orange (MO) and rhodamine B (RhB) dyes at 120 min, and 160 min, respectively, and 68% of phenol and 53% of TCP were destroyed in 180 min. The resilient holes can directly destroy MO, RhB, phenol, and TCP.