O principal objetivo do presente estudo foi modificar a superfície de uma membrana de poliamida comercial com a deposição de nanopartículas de TiO₂ pelo método self-assembly sob pressão com alta permeabilidade e atividade fotocatalítica. Mudanças nas características da membrana e seu desempenho nas propriedades fotocatalíticas foram avaliados. Os resultados experimentais indicaram que tanto a hidrofilia da membrana quanto o desempenho fotocatalítico foram significativamente melhorados pela presença de nanopartículas de TiO₂ aplicadas sob uma pressão de 1 bar. A deposição das partículas de TiO₂ sob pressão foi capaz de manter as partículas na superfície das membranas e sua capacidade fotocatalítica por três ciclos de uso. A membrana fotocatalítica de TiO₂ preparada apresentou um grande potencial no tratamento de efluentes e sistemas de reuso devido à sua capacidade de remover o corante azul de metileno por decomposição fotocatalítica e separação física.

Palavras-chave: azul de metileno, dióxido de titânio, filtração por membrana, fotocatálise, fotodegradação orgânica.

This study modified the surface of a commercial polyamide membrane with the deposition of TiO₂ nanoparticles by the self-assembly method under pressure with high permeability and photocatalytic activity. Changes in membrane characteristics and its performance for photocatalytic properties were evaluated. The results indicated that both membrane hydrophilicity and photocatalytic performance were significantly improved by the presence of TiO₂ nanoparticles applied under a pressure of 1 bar. The deposition of the TiO₂ particles under pressure was able to maintain the particles on the surface of the membranes and their photocatalytic capacity for three cycles of use. The prepared TiO₂ photocatalytic membrane presented a great potential for wastewater treatment and for reuse wastewater systems due its ability to remove methylene blue (MB) dye solution by photocatalytic decomposition and physical separation.

This study modified the surface of a commercial polyamide membrane with the deposition of TiO₂ nanoparticles by the self-assembly method under pressure with high permeability and photocatalytic activity. Changes in membrane characteristics and its performance for photocatalytic properties were evaluated. The results indicated that both membrane hydrophilicity and photocatalytic performance were significantly improved by the presence of TiO₂ nanoparticles applied under a pressure of 1 bar. The deposition of the TiO₂ particles under pressure was able to maintain the particles on the surface of the membranes and their photocatalytic capacity for three cycles of use. The prepared TiO₂ photocatalytic membrane presented a great potential for wastewater treatment and for reuse wastewater systems due its ability to remove methylene blue (MB) dye solution by photocatalytic decomposition and physical separation.