Antimicrobial activity of the LTA zeolite modified by zinc species

Metal species supported on zeolites have proven efficient synergistic mechanisms against microorganisms, reducing the overall toxicity. Likewise, the deposition of metals by ultrasound is a method that has drawn attention due to its efficiency, low cost, and environmental friendliness. Hence, the an...

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Published in:Microporous and mesoporous materials 2024-12, Vol.380, p.113295, Article 113295
Main Authors: De León Ramirez, Jesús Isaías, Reyes Villegas, Víctor Alfredo, Cadena-Nava, Ruben D., Loredo-Garcia, Elizabeth, Chávez-Rivas, Fernando, González-Torres, Verónica, Petranovskii, Vitalii
Format: Article
Language:English
Subjects:
LTA
Sono-chemical
Zeolite
Zinc peroxide
Zinc species
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Summary:Metal species supported on zeolites have proven efficient synergistic mechanisms against microorganisms, reducing the overall toxicity. Likewise, the deposition of metals by ultrasound is a method that has drawn attention due to its efficiency, low cost, and environmental friendliness. Hence, the antimicrobial properties of Zinc (Zn) species supported on LTA zeolite (NaA) via a sono-assisted method were explored in this study. Zeolite A modified with Zn species by ion exchange or sono-assisted precipitation of active Zn species (Zn(OH)2, ZnO, and ZnO2) was evaluated in a screening experiment by agar diffusion and micro broth assays. Finding that at a concentration of 30 mg/mL, drying the ZnO2@NaA material activated a mechanism that inhibited the growth of E. faecalis by 100 % while eliminating the drying step, an inverse effect was produced, now inhibiting the growth of E. coli. This sample also presented promising properties as an antimycotic agent inhibiting the growth of C. albicans by 90 % at a concentration of 1 mg/mL. In addition, a viability analysis was performed on fibroblasts, demonstrating a potential toxicity reduction. This ZnO2@NaA material holds promise as an antibacterial and antifungal agent. Presenting a novel sono-assisted methodology for tuning the selectivity of inhibition mechanisms for peroxide-containing species in zeolites. This selected zinc-containing zeolitic material (ZnO2@NaA) was then characterized by UV–Vis, FTIR, Raman spectroscopy SEM, XRD, and ζ-potential, evidencing the presence of ZnO2 nanoparticles. This study opens perspectives for developing new antimicrobial Zn-containing zeolitic materials through a sono-assisted methodology for increasing selectivity in the inhibition mechanisms. [Display omitted] •Ultrasound-assisted ZnO2 nanoparticle precipitation on NaA zeolite, enhancing particle uniformity.•Low toxicity in fibroblasts of zinc peroxide nanoparticles deposited on NaA zeolite.•Effective antimicrobial action of ZnO2@NaA for gram-positive and negative bacteria.•Mechanism of releasing O2 nanobubbles by ZnO2@NaA for the inhibition of microorganisms.
ISSN:1387-1811
DOI:10.1016/j.micromeso.2024.113295