Carbamazepine (CBZ) is a commonly used drug for the treatment of
epilepsy. Due to the narrow effective range, CBZ concentration was
usually monitored with blood draw from patients. Frequent blood draw
is inconvenient and causes physical and psychological pain. Therefore,
highly-sensitive, rapid, label-free, and non-invasive drug detection
methods can be alternatives to bring a relief. In this work, we have
proposed a method for the non-invasive detection of CBZ using
surface-enhanced Raman spectroscopy (SERS). Gold-silver core-shell
nanomaterial substrates were prepared and optimized. Salivary CBZ
concentration was measured with SERS as a non-invasive alternative to
blood draw. The results showed that there was a linear relationship
between SERS response and CBZ concentration in the entire measured
range of 10−1 ∼ 10−8 mol/L.
The detection limit of this method was 1.26 ×
10−9 mol/L. Satisfactory repeatability and stability
were also demonstrated. Due to its high sensitivity and ease of
operation, the proposed method can serve as an alternative to blood
draw for non-invasively monitoring CBZ concentration. It also has
great potentials in many other applications of biomedical
sciences.
Chlorpyrifos (CPF) and 2,4-dichlorophenoxyacetic acid (2,4-D) are insecticides and herbicides which has been widely used on farms. However, CPF and 2,4-D residues on corps can bring high risks to human health. Accurate detection of pesticide residues is important for controlling health risks caused by CPF and 2,4-D. Therefore, we developed a fast, sensitive, economical, and lossless surface-enhanced Raman spectroscopy (SERS)-based method for pesticide detection. It can rapidly and simultaneously determine the CPF and 2,4-D mixed pesticide residues on an apple surface at a minimum of 0.001 mg L−1 concentration, which is far below the pesticide residue standard in China and the EU. The limits of detection reach down to 1.28 × 10−9 mol L−1 for CPF and 2.47 × 10−10 mol L−1 for 2,4-D. The limits of quantification are 4.27 × 10−9 mol L−1 and 8.23 × 10−10 mol L−1 for CPF and 2,4-D. This method has a great potential for the accurate detection of pesticide residues, and may be applied to other fields of agricultural products and food industry.
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