4.7 Article

Development of perceptive multi-analyte sensing platform based on fluorescent CdS QDs for selective and sensitive assay of virulent contaminants in aqueous medium

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2022.108562

关键词

CdS QDs; Fluorescent sensors; Nitrophenolic explosives; Fluoroquinolones; Organochlorine pesticide; Organic pollutants

资金

  1. Innovative in Science Pursuit for Inspired Research [DST/TMD (EWO) /OWUIS-2018/RS-15]
  2. Department of Science and Technology
  3. Technical Education Quality Improvement Program (TEQIP) -III, Dr. SSBUICET
  4. [SEED/TIASN/008/2018/G]
  5. [2017/IF170903]

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This research aims to develop a multi-analyte fluorescent probe based on biocompatible chitosan capped CdS QDs for the detection of environmentally harmful organic pollutants. The probe showed high sensitivity and selectivity towards nitrophenolic explosives, fluoroquinolone antibiotics, and organochlorine pesticide in wastewater. It demonstrated excellent detection performance in real sample analysis.
Relentless discharge of organic pollutants into the aqueous realm, including antibiotics, pesticides and nitro -aromatic explosives, has necessitated world-wide attention for trace level monitoring of organic pollutants to safeguard water resources. This work aims to develop a multi-analyte fluorescent probe based on the biocom-patible chitosan capped CdS QDs (CTS-CdS QDs) for the detection of environmentally deleterious organic pol-lutants. The facile aqueous chemical approach was opted for the fabrication of CTS-CdS QDs and their structural and morphological features were effectually evinced by Fourier transform infrared spectroscopy (FT-IR), powder X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS) and high resolution transmission electron mi-croscopy (HRTEM). The distinct fluorescent characteristics of CTS-CdS QDs showed an unprecedented selectivity towards nitrophenolic explosives (p-nitrophenol (PNP), 2,4-dinitrophenol (2,4-DNP), picric acid (PA)), fluo-roquinolones (ofloxacin (OLX), nor-ofloxacin (NOLX), levofloxacin (LVX)) and organochlorine pesticide (dicofol (DCF)) in waste water. Moreover, extremely low limit of detection was attained by CTS-CdS QDs for each detected analyte i.e., PNP (7.6 mu M), 2,4-DNP (3.5 mu M), PA (4.2 mu M), OLX (0.006 mu M), NOLX (0.026 mu M), LVX (0.084 mu M) and DCF (0.24 mu M). Benefiting the outstanding characters of fluorescent probe in terms of high sensitivity, long fluorescent stability, quick response to targeted analytes, these were also successfully employed for trace level detection of organic pollutants in real samples analysis and excellent recoveries of 90-105% were achieved for spiked water samples. Through this work, green CTS-CdS QDs has been reported first time for the detection of nitrophenolic explosives, fluoroquinolone antibiotics and DCF pesticide in aqueous samples using a single probe.

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