Abstract
This article reports on VIS-active composite thin films based on zinc oxide (ZnO) and copper sulfide (CuxS) deposited using robotic spray pyrolysis deposition (SPD) for the study of the optical and photocatalytic properties. The first step involves the SPD deposition of a CuxS layer onto the glass substrate at 300°C. The second step consists of the deposition of a ZnO layer onto the CuxS layer to form glass/CuxS-ZnO composites that were further annealed at 400°C. The development of the composite thin films was confirmed by XRD and EDX analyses. The band gap energy ( E g ) of the bare ZnO thin films decreased from 3.15 eV to an activation energy value of 2.8 eV after the deposition of the ZnO thin layer onto the CuxS layer and from 2.8 to 2.08 eV after annealing the CuxS-ZnO composite at 400°C. The UV-VIS irradiation (5.5% of UV, G = 55 W / m 2 ) of a 10 ppm methylene blue solution was used to investigate the photocatalytic properties of the CuxS-ZnO composites. The annealed CuxS-ZnO thin films at 400°C demonstrates better photocatalytic activity compared to CuxS-ZnO composites deposited at 300°C. The enhanced photocatalytic efficiency of the annealed CuxS-ZnO thin films may be the result of the diode structure and the increased crystallinity that prevent the electron-hole recombination.
Highlights
Nowadays, synthetic dyes are widely used in the textile, paper, food, or cosmetic industries
This paper reports on the deposition of a zinc oxide (ZnO) thin film on a CuxS thin film using the robotic spray pyrolysis route
A strong orientation is observed along the (002) plane that represents the growth perpendicular to the substrate surface and indicate that the ZnO thin films are strongly oriented along the c-axis [25, 26]
Summary
Synthetic dyes are widely used in the textile, paper, food, or cosmetic industries. Copper sulfide (CuxS) is recognized as an important, narrow band gap (1.2-2.1 eV) p-type semiconductor suitable for modifying the properties of ZnO when attached to the ZnO surface to develop n-p heterojunctions, and these heterostructures have applications in VIS-activated photocatalysis [13, 16]. The use of powder photocatalysts suspended in water raises two major problems specific for small-sized powder grains: the catalyst separation after the photocatalytic process from the aqueous solution and its recycling for reuse. To overcome these problems, CuxS-ZnO photocatalysts can be used as thin films. The structural, morphological, and optical properties of CuxS-ZnO composites before and after annealing were further investigated to outline their influence on the photocatalytic response
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