Synthesis of Novel Bismuth-Based Catalysts for the Degradation of Microplastics in Aquatic Matrices
Microplastics2025
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Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Rocío Rodríguez-Barroso
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
María de la Paz Sánchez-Aparicio,
María Dolores Coello Oviedo,
María de la Paz Sánchez-Aparicio,
María Pilar Yeste,
María Pilar Yeste,
María Pilar Yeste,
María Pilar Yeste,
María Pilar Yeste,
María Pilar Yeste,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
Rocío Rodríguez-Barroso
María Dolores Coello Oviedo,
Ana Pilar Martín-García,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
Ana Pilar Martín-García,
Ana Pilar Martín-García,
Rocío Rodríguez-Barroso
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
Ágata Egea-Corbacho,
Ágata Egea-Corbacho,
María Dolores Coello Oviedo,
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
María Pilar Yeste,
María Pilar Yeste,
María Pilar Yeste,
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
José María Quiroga Alonso,
Rocío Rodríguez-Barroso
José María Quiroga Alonso,
María Dolores Coello Oviedo,
José María Quiroga Alonso,
José María Quiroga Alonso,
María Pilar Yeste,
María Dolores Coello Oviedo,
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
José María Quiroga Alonso,
José María Quiroga Alonso,
María Pilar Yeste,
Rocío Rodríguez-Barroso
Rocío Rodríguez-Barroso
José María Quiroga Alonso,
José María Quiroga Alonso,
José María Quiroga Alonso,
Rocío Rodríguez-Barroso
María Dolores Coello Oviedo,
M.A. Cauqui,
María Dolores Coello Oviedo,
María Pilar Yeste,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
Ana Pilar Martín-García,
José María Quiroga Alonso,
José María Quiroga Alonso,
María Pilar Yeste,
José María Quiroga Alonso,
María Dolores Coello Oviedo,
José María Quiroga Alonso,
María Pilar Yeste,
José María Quiroga Alonso,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
José María Quiroga Alonso,
José María Quiroga Alonso,
María Pilar Yeste,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
María Dolores Coello Oviedo,
Rocío Rodríguez-Barroso
Summary
Researchers synthesized two bismuth-based photocatalysts — BiPO4 and Bi2O3/TiO2 — and tested them against polypropylene microplastics under UV irradiation, finding BiPO4 more effective under UV-B (up to 10.81% area reduction) and Bi2O3/TiO2 more effective under UV-A (up to 9.15% area reduction), with FTIR confirming incipient structural degradation.
Microplastics are one of the most widely studied and concerning contaminants, as they are present in all environmental compartments, especially water bodies. Wastewater treatment plants are one of the most important pathways through which these pollutants enter the environment. Currently, novel techniques are being developed to eliminate microplastics from wastewater, including heterogeneous photocatalysis. In this study, two bismuth-based photocatalysts were synthesized using different methods: BiPO4 by the solvothermal method, and Bi2O3/TiO2 by the wet impregnation method. These were morphologically and structurally characterized. Both photocatalysts were then tested in laboratory-scale experiments to evaluate their effectiveness on the degradation of polypropylene microplastics under UV irradiation in ultrapure water. The effectiveness of the treatment was estimated by measuring the reduction in the area of each of the microplastics, and structural changes were assessed using infrared spectroscopy (FTIR). It was found that the BiPO4 catalyst was more effective when applying UV-B radiation, achieving a reduction in the area of microplastics of up to 10.81%, while the Bi2O3/TiO2 catalyst showed a higher efficiency when applying UV-A, achieving a reduction in the area of microplastics of up to 9.15%. The study of microplastics by ATR-FTIR revealed the appearance and modification of some absorption bands, which indicates incipient degradation. The application of both catalysts in real wastewater showed a reduction in the efficiency of the treatment; hence, further studies should be conducted to determine the influence of other variables in the photocatalytic process. In the current context of growing environmental concern, the development of new, easily synthesized catalysts represents a key strategy for reducing or eliminating MPs. This study presents significant advances in the formulation and evaluation of innovative catalysts, demonstrating their potential as effective and accessible tools for mitigating one of the most pressing global pollution challenges.