Abstract
Biological contamination is a typical issue in water treatment. Highly concentrated microbial suspensions in a water flow may cause filter occlusion and biofilm formation, affecting the lifespan and quality of water purification systems and increasing the risk of nosocomial infections. In order to contrast the biofilm formation, most of the conventional strategies rely on the water chemical modification and/or on the use of filters functional coatings. The former is unsafe for huge chemicals spilling required; therefore, we focus on the second approach and we propose the use of a sulfonated pentablock copolymer (s-PBC, commercially named Nexar™) as innovative multifunctional coating for improving the performance of commercial water filters. S-PBC-coated polypropylene (PP) samples were tested against the pathogen Pseudomonas aeruginosa. The covering of PP with s-PBC results in a more hydrophilic, acid, and negatively charged surface. These properties avoid the adhesion and proliferation attempts of planktonic bacteria, i.e., the biofilm formation. Inhibition tests were performed on the as-modified filters and an evident antibacterial activity was observed. The results point out the possibility of using NexarTM as coating layer for filters with antifouling properties and a simultaneous ability to remove bacteria and cationic dyes from water.
Highlights
Environmental pollution is one of the current global challenges requiring innovative methods and systems to preserve human health [1,2,3]
This assemblage is the result of an attachment, colonization, and growth process that follows the interaction of planktonic bacteria with a surface
The bacterial suspensions used in the biofilm formation experiment investigation was focused on the survival of P. aeruginosa after its exposure to PP and sulfonated pentablock copolymer (s-PBC)@PP
Summary
Environmental pollution is one of the current global challenges requiring innovative methods and systems to preserve human health [1,2,3]. Biofilm is a complex aggregation of surface-associated microorganisms encapsulated inside a secreted extracellular polymeric substances (EPSs) matrix [14] This assemblage is the result of an attachment, colonization, and growth process that follows the interaction of planktonic bacteria with a surface (i.e., the filter surface in a water depuration system). The risk of disinfection byproducts in water due to the use of chemicals may be overpassed by the “contact killing” biocidal coatings These surfaces incorporate and expose biocides blocking the adhesion and growth processes of interacting bacteria without reagents spilling and dispersion in water. PP filter with respect to (Zone bare ones were investigated by a biofilm results confirm the advantageous use of NexarTM as antifouling and antibacterial coating layer for experiment and an antimicrobial susceptibility (Zone of Inhibition) test of P. aeruginosa. Results confirm theinadvantageous use of NexarTM as antifouling and antibacterial coating layer for commercial filters in water purification application
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