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Auteurs principaux: Cano, Natalia Ormeno, Radjenovic, Jelena
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2410.01867
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author Cano, Natalia Ormeno
Radjenovic, Jelena
author_facet Cano, Natalia Ormeno
Radjenovic, Jelena
contents In this study, we synthesized S functionalized graphene sponge electrode and applied it for electrochemical oxidation of five commonly used antibiotics, namely sulfamethoxazole, trimethoprim, ofloxacin, roxithromycin and erythromycin, and inactivation of a multidrug resistant Escherichia coli, E. coli. The experiments were performed using real drinking water in a flow through, one pass mode. Highly polar antibiotics such as sulfamethoxazole did not adsorb onto the graphene sponge but were completely removed, i.e., more than 95% removal, at low applied current densities, 14.5 A m2. Antibiotics with high affinity for pi pi interactions were completely removed already in the open circuit, and current application led to their further degradation. S doped graphene sponge anode resulted in 4.5 log removal of a multi-drug resistant E. coli at 29 A m2. There was no regrowth of bacteria observed during storage of the electrochemically treated samples, suggesting that the treatment severely impacted the cell viability. Further E. coli removal of 0.7 log was observed after the storage of electrochemically treated samples. The energy consumption of a continuously operated electrochemical system that achieved 4.5 log inactivation of a multidrug resistant E. coli and 87 to 99% removal of antibiotics was 1.1 kWh m3.
format Preprint
id arxiv_https___arxiv_org_abs_2410_01867
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Electrochemical removal of antibiotics and multidrug-resistant bacteria using S-functionalized graphene sponge electrodes
Cano, Natalia Ormeno
Radjenovic, Jelena
Biological Physics
Materials Science
In this study, we synthesized S functionalized graphene sponge electrode and applied it for electrochemical oxidation of five commonly used antibiotics, namely sulfamethoxazole, trimethoprim, ofloxacin, roxithromycin and erythromycin, and inactivation of a multidrug resistant Escherichia coli, E. coli. The experiments were performed using real drinking water in a flow through, one pass mode. Highly polar antibiotics such as sulfamethoxazole did not adsorb onto the graphene sponge but were completely removed, i.e., more than 95% removal, at low applied current densities, 14.5 A m2. Antibiotics with high affinity for pi pi interactions were completely removed already in the open circuit, and current application led to their further degradation. S doped graphene sponge anode resulted in 4.5 log removal of a multi-drug resistant E. coli at 29 A m2. There was no regrowth of bacteria observed during storage of the electrochemically treated samples, suggesting that the treatment severely impacted the cell viability. Further E. coli removal of 0.7 log was observed after the storage of electrochemically treated samples. The energy consumption of a continuously operated electrochemical system that achieved 4.5 log inactivation of a multidrug resistant E. coli and 87 to 99% removal of antibiotics was 1.1 kWh m3.
title Electrochemical removal of antibiotics and multidrug-resistant bacteria using S-functionalized graphene sponge electrodes
topic Biological Physics
Materials Science
url https://arxiv.org/abs/2410.01867