Postmodification of MOF-5 using secondary complex formation using 8- hydroxyquinoline (HOQ) for the development of visible light active photocatalysts

Abstract

A novel HOQ@MOF-5 compound photocatalyst was successfully constructed by interacting 8- Hydroxyquinoline with MOF-5 synthesized through a room temperature method. The secondary complex formation between the Zn cluster with 8-Hydroxyquinoline harnessed visible light and acted as a mediator to transfer photoinduced electrons to MOF-5 for enhancing the photocatalytic reaction rate with visible light. HOQ@MOF-5 was characterized by various spectroscopic techniques, such as XRD showing the crystalline nature of compound, UV–Visible spectroscopy showing the 2.54 eV band gap of HOQ@MOF-5 and morphological analysis tools, such as the nanoparticle nature of the compound with 9.561 nm particle size. The photocatalytic effect was estimated using the photocatalytic degradation of phenol as a representative organic pollutant under visible light irradiation. This work provides a new compound acting as source of electrons transfer for the development of efficient photocatalysts for remediation of environmental pollution.