Molecularly imprinted films and quaternary ammonium-functionalized microparticles working in tandem against pathogenic bacteria in wastewaters

[Display omitted] •First study on materials working in tandem to reduce pathogenic bacteria.•Purification of influent from domestic and industrial wastewaters was targeted.•Original films and microparticles with increased bactericidal effect were designed.•The tandem application of materials led to...

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Veröffentlicht in:Journal of hazardous materials 2020-11, Vol.399, p.123026-123026, Article 123026
Hauptverfasser: Gavrila, Ana-Mihaela, Zaharia, Anamaria, Paruch, Lisa, Perrin, Francois Xavier, Sarbu, Andrei, Olaru, Andreea Gabriela, Paruch, Adam Mariusz, Iordache, Tanta-Verona
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Sprache:eng
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Zusammenfassung:[Display omitted] •First study on materials working in tandem to reduce pathogenic bacteria.•Purification of influent from domestic and industrial wastewaters was targeted.•Original films and microparticles with increased bactericidal effect were designed.•The tandem application of materials led to reduction of pathogenic bacteria with 85 %.•The efficiency of materials was confirmed using specific pathogen genetic markers. Despite major efforts to combat pollution, the presence of pathogenic bacteria is still detected in surface water, soil and even crops due to poor purification of domestic and industrial wastewaters. Therefore, we have designed molecularly imprinted polymer films and quaternary ammonium-functionalized- kaolin microparticles to target specifically Gram-negative bacteria (GNB) and Gram-positive bacteria (GPB) in wastewaters and ensure a higher purification rate by working in tandem. According to the bacteriological indicators, a reduction by 90 % was registered for GNB (total coliforms and Escherichia coli O157) and by 77 % for GPB (Clostridium perfringens) in wastewaters. The reduction rates were confirmed when using pathogen genetic markers to quantify particular types of GNB and GPB, like Salmonella typhimurium (reduction up to 100 %),Campylobacter jejuni (reduction up to 70 %), Enterococcus faecalis (reduction up to 81 %), Clostridium perfringens (reduction up to 97 %) and Shiga toxin-producing Escherichia coli (reduction up to 64 %). In order to understand the bactericidal activity of prepared films and microparticles, we have performed several key analyses such as Cryo-TEM, to highlight the auto-assembly mechanism of components during the films formation, and 29 Si/13 C CP/MAS NMR, to reveal the way quaternary ammonium groups are grafted on the surface of kaolin microparticles.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2020.123026