Tetracycline (TC) is a broad-spectrum antibiotic that has been widely used for numerous infection treatment due to its strong inhibitory effect on pathogenic microorganisms, low toxicity and low-cost. However, the abuse of TC may cause its residues in foods, such as meat and milk. Intake of these TC-contaminated foods could promote bacterial resistance to antibiotics. In this work, we report a simple and low-cost nanoprobe method with high selectivity and sensitivity for TC detection. The nanoprobe was developed by chelating europium (III) ion (Eu3+) onto the surface of silica nanoparticles (SiNPs-Eu3+). The β-diketone configuration of TC can further coordinate with surface Eu3+ steadily, then absorb and transfer the excitation energy to Eu3+ via “antenna effect” upon UV light irradiation. The SiNPs-Eu3+ nanoprobe was weakly luminescent in buffer solution. In the presence of TC, a strong emission at 615 nm was observed upon the excitation at 390 nm. This SiNPs-Eu3+ nanoprobe was featured with a wide linear range (5 nM - 10 µM), high sensitivity (LoD = 1 nM), quick response (30 min), allowing it to be used for TC detection in real-world samples.
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Development of a europium (III) ion functionalized silica nanoprobe for highly sensitive detection of tetracycline
Published:
30 June 2021
by MDPI
in The 1st International Electronic Conference on Chemical Sensors and Analytical Chemistry
session Biosensors
https://doi.org/10.3390/CSAC2021-10479
(registering DOI)
Abstract:
Keywords: Tetracycline; silica nano particles; europium (III) ion