Abstract
The release of hexavalent chromium ions (Cr (VI)) in water can pose critical intimidations to the ecological environments and highly hazardous impacts on health. This study demonstrates the construction of nanostructured Bi2S3/TiO2 as a visible-light active photocatalyst for the rapid reduction of Cr(VI) to trivalent chromium ions (Cr(III)). Mesostructured TiO2 was grown by surfactant-assisted sol-gel process. The Bi2S3 of 8.3 nm in size were anchored the 19.4 nm TiO2 rhombohedra by coprecipitation at 1.0-4.0 wt%, as proved by TEM, XPS, and XRD explorations. The absorption of visible light was enhanced as a result of bandgap reduction to similar to 2.5 eV for the 3.0% Bi2S3/TiO2. This developed Bi2S3-sensitized TiO2 achieved a fast photocatalytic reduction of Cr(VI) at 284.2 mu mol min(-1 )within just 30 min by adjusting dose at 2.0 gL(-1). In addition, this developed photocatalyst showed magnificent reproducibility for five runs. This promoted photoactivity is ascribed to the efficient interfacial charge separation by Bi2S3 sensitization as inveterate by photoluminescence and photocurrent measurements. This work opens the door for plenty of metal chalcogenide-based oxide nanostructured photocatalysts for heavy metal remediation under visible light.