Abstract
We report on the immobilization of carbon nitride (CN) materials and β-Bi2O3 on electrospun polyvinyl acetate (PVAc) fiber substrates using a dispersion based dip coating process. The spinning process was optimized by variation of several parameters to finally obtain continuous droplet-free fibers at 15 kV and a flow rate of 50 µL min−1 using a needle with 1.2 mm diameter. The polymer substrates were coated with the β-Bi2O3 and CN materials, which were characterized using SEM and applied in the photocatalytic degradation of organic pollutants such as Rhodamine B (RhB), ethinyl estradiol (EE2) and triclosan using visible light irradiation. The pollutants were degraded with up to 50% of the initial concentration within 8 h. Different amounts of CN material were deposited to evaluate the photocatalytic activity per mass. Immobilized CN materials were shown to be of higher activity (2.0 × 10−10 mol mg−1 min−1) than β-Bi2O3 (1.3 × 10−10 mol mg−1 min−1) and the mixture CN/β-Bi2O3 (1.6 × 10−10 mol mg−1 min−1). Reference samples with CN particles partially embedded in the polymer fleece showed minor degradaton rates (18% RhB degradation within 8 h) as compared to coated fiber substrates (47% RhB degradation within 8 h). Minor leaching of the carbon nitride material and no leaching of β-Bi2O3 occurs as shown by NPOC (non purgeable organic carbon) and ICP-MS measurements.
Highlights
In the last decades an increased usage of dyes, biocides and pharmaceuticals is recorded, and especially the use of antibiotics increased significantly
Thick polymer fibers were obtained. Fleeces produced with these parameters were used as support for carbon nitride (CN) and β-Bi2O3 particles, which were immobilized via a dip coating process
480 min irradiation time, which corresponds to a photocatalytic activity of 5.0 × 1 0−10 mol mg−1 min−1, and triclosan is degraded to 50%, which corresponds to a photocatalytic activity of the coated fleece for triclosan of 7.1 × 10−10 mol mg−1 min−1
Summary
In the last decades an increased usage of dyes, biocides and pharmaceuticals is recorded, and especially the use of antibiotics increased significantly. Around 150 different pharmaceutical substances were detected in sewage effluents and surface water to date [2]. It is important to note that due to their high persistence and bioaccumulation pharmaceuticals, drugs and dyes, which are harmful to human and aquatic living beings, become increasingly part of the food chain [7, 8].
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