期刊
出版社
ELSEVIER
DOI: 10.1016/j.msec.2020.111317
关键词
Sensor; Pharmaceutical contaminants; Cloxacillin; Adsorbent nanocomposite
Extensive research has been conducted on the impact of antibiotics on human health, water resources, and the environment, in response to their increasing use and entry into the environment. A suitable method for detecting and eliminating trace amounts of the antibiotic cloxacillin in water was proposed in this study, utilizing a new electrochemical nanosensor and a novel carbon nanocomposite. The nanosensor was capable of measuring cloxacillin in the 5.0-775.0 nM range with a detection limit of 1.6 nM, while the carbon nanocomposite showed high adsorption capacity for the removal of water-soluble pharmaceutical contaminants.
In recent years, considering the increasing use of antibiotics, and their continued entry into the environment, extensive research has been conducted on the impact of antibiotics on human health, water resources, and the environment. In this study, a suitable method has been proposed for detecting and elimination the trace amounts of the antibiotic cloxacillin in aqueous. For identify trace amounts of cloxacillin in solution, a new electrochemical nanosensor based on a screen printed carbon electrode (SPCE) modified with gold nanorods/graphene oxide was proposed. This nanosensor, which was prepared by self-assembling method, was capable of measuring cloxacillin in the 5.0-775.0 nM with a detection limit of 1.6 nM. In order to reduce the amount of antibiotics in the environment, a novel carbon nanocomposite based on sol-gel method was prepared and its application as a high-capacity adsorbent for the removal of cloxacillin was studied. In the antibiotic removal experiments, the effect of pH, contact time, different mass ratios of SWCNT and amount of nanocomposite adsorbent were also optimized by response surface methodology (RSM). The prepared nanosensor and synthesized carbon nanocomposites were then characterized by commonly identical techniques involve SEM, EDAX, BET and FT-IR. The presented nanosensor was successfully used for the in situ determination of Clox in adsorptive tests with reliable recovery. As well, the AuNR/GO/SPC electrode presented well stability, repeatability and reproducibility. In addition, good performance and high adsorption capacity make developed adsorbent as a suitable case for the removal of water-soluble pharmaceutical contaminants.
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