Hierarchical structures constructed by BiOX (X = Cl, I) nanosheets on CNTs/carbon composite fibers for improved photocatalytic degradation of methyl orange

A hierarchical structure (CNTs/CFs-NSs) of BiOX (X = Cl, I) nanosheets (NSs) on carbon fibers (CFs) embedded with aligned carbon nanotubes (CNTs) with improved photocatalytic activities has been developed on a large scale. In the CNTs/CFs obtained by centrifugal spinning, CNTs align along the axis of the CFs, form pi-pi stacking interactions with CFs and strength the electrical conductivity of CFs, which favors the electron collection and transportation. Cross-flake BiOX NSs were uniformly grown on the surface of CNTs/CFs through a successive ionic layer adsorption and reaction process. The as-prepared BiOX NSs are less than 20 nm in thickness with dominant reactive (001) facets that are almost fully exposed, promoting the photocatalytic properties. The hierarchical CNTs/CFs-NSs show 3- and 2-fold improved photocatalytic activities for degradation of methyl orange for BiOCl and BiOI compared to corresponding neat NSs, respectively, given the synergistic effects of CNTs/CFs and NSs. Moreover, these novel hierarchical structures with stable performance enhance the recycled ability for the photocatalyst.