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Efficient photocatalytic mineralization of polymethylmethacrylate and polystyrene nanoplastics by TiO2/β-SiC alveolar foams
Summary
TiO2/β-SiC photocatalytic foam systems successfully mineralized approximately 50% of PMMA nanoplastics within 7 hours under UV-A radiation, with degradation rates influenced by pH, flow rate, and particle size. This photocatalytic approach offers a promising advanced treatment technology for removing nanoplastics from household wastewater before they bypass conventional treatment plants and enter ecosystems.
Household wastewaters contain microplastics and nanoplastics that end up in ecosystems because these pollutants are not filtered by current wastewater treatment plants. Therefore, there is a need for advanced removal technologies. Here, we tested the degradation of polymethylmethacrylate (PMMA) and polystyrene (PS) nanoparticles by photocatalysis with TiO2–P25/β-SiC foams under UV-A radiation. We studied the effect of flow rate, initial pH and light intensity. Results show that about 50% of the carbon of polymethylmethacrylate nanobeads are degraded in 7 h at an irradiance of 112 W/m2, a flow rate of 10 mL/min and an initial pH of 6.3. Degradation is faster at low pH (4–6) and low flow rate. 140-nm polystyrene degrades faster than 508-nm polystyrene.