In this work we present a series of hybrid membranes with piezocatalytic properties for wastewater treatment. For this, four types of barium titanate nanoparticles (BTO NPs) with different coatings were synthesized. These NPs were embedded in a polystyrene (PS) matrix to fabricate hybrid, porous membranes using the breath figures (BF) technique. In-depth electron microscopy analysis showed that the NPs with an amphiphilic coating composed of PS (hydrophobic, compatibilizing them with the PS matrix) and hydrocaffeic acid (HCA) (hydrophilic, favoring the formation of ordered pores) led to the formation of honeycomb-patterned films where these NPs are selectively placed inside of the pores for a wide range of concentrations, from 5 to 100 wt%. We demonstrated the potential of these membranes in piezocatalysis applications, through proof-of-concept studies of methylene blue (MB) degradation in aqueous solutions.
Maturi, M., De La Mata, M., Comes Franchini, M., Molina, S.I., Sanz De León, A. (2025). Hybrid membranes for wastewater treatment based on polymer-coated barium titanate nanoparticles. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 683, 122-131 [10.1016/j.jcis.2024.12.013].
Hybrid membranes for wastewater treatment based on polymer-coated barium titanate nanoparticles
Maturi, Mirko;Comes Franchini, Mauro;
2025
Abstract
In this work we present a series of hybrid membranes with piezocatalytic properties for wastewater treatment. For this, four types of barium titanate nanoparticles (BTO NPs) with different coatings were synthesized. These NPs were embedded in a polystyrene (PS) matrix to fabricate hybrid, porous membranes using the breath figures (BF) technique. In-depth electron microscopy analysis showed that the NPs with an amphiphilic coating composed of PS (hydrophobic, compatibilizing them with the PS matrix) and hydrocaffeic acid (HCA) (hydrophilic, favoring the formation of ordered pores) led to the formation of honeycomb-patterned films where these NPs are selectively placed inside of the pores for a wide range of concentrations, from 5 to 100 wt%. We demonstrated the potential of these membranes in piezocatalysis applications, through proof-of-concept studies of methylene blue (MB) degradation in aqueous solutions.| File | Dimensione | Formato | |
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Postprint_Comes_Franchini_20241028_Manuscript_R1_MM.pdf
embargo fino al 06/12/2025
Tipo:
Postprint / Author's Accepted Manuscript (AAM) - versione accettata per la pubblicazione dopo la peer-review
Licenza:
Licenza per Accesso Aperto. Creative Commons Attribuzione - Non commerciale - Non opere derivate (CCBYNCND)
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1.11 MB
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