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Malathion is an insecticide widely used on a broad spectrum of plant species. Although classified as having low toxicity, ingestion or acute skin exposure can be dangerous to humans. Several studies have implicated chronic exposure to malathion in the development of certain cancers. Maximum residue limits for malathion have been enacted by the regulatory agencies of several countries: the US Food and Drug Administration sets maximum residue limits at 8 μg/g in foods, while the EU has a considerably more stringent limit of 20 ng/g.

SERS is an accepted method for detection of malathion on fruit and vegetable surfaces. Misa (Metrohm Instant SERS Analyzer), which requires minimal laboratory chemicals and consumables and provides an extremely user-friendly interface, is an excellent SERS solution for trace detection of food adulterants. Misa is a formidable advancement in cost and convenience related to food safety testing and data analysis.

This application note describes a simulated test procedure for detecting malathion sprayed on corn kernels. The assay is based on the acquisition of SERS-specific spectra for malathion in acetone extracts using Misa and gold nanoparticles (Au NPs).

To establish a reference spectrum, a pure malathion standard at 100 μg/mL in ethanol was analyzed using Au NPs. The unique SERS spectrum shown in Figure 1 can be used to create a library entry for malathion.

Figure 1. Standard Au NP SERS reference spectrum of malathion.
https://metrohm.scene7.com/is/image/metrohm/5158-3?ts=1642068688745&dpr=off

A stock solution of malathion in acetone was sprayed onto field corn kernels to yield a range of test samples from 1–20 μg/g (concentrations calculated with respect to mass of corn kernels). 0.25 mL of acetone was added to samples in capped glass vials, which were swirled occasionally over a period of 10 minutes to facilitate extraction. At the end of this time, 100 μL of the acetone extract was transferred to a second glass vial and dried on a hot plate. The residue was resuspended in 450 μL of Au NPs and 50 μL of 0.5 mol/L NaCl, the vial was gently shaken to mix, and then immediately placed into the vial attachment on Misa for measurement.

Table 1. Experimental parameters
Instrument Acquisition
Firmware 0.9.33 Laser Power 5
Software Misa Cal V1.0.15 Int. Time 10 s
Misa Vial Attachment 6.07505.040 Averages 10
ID Kit - Au NP
6.07506.440 Raster ON

Overlaid baseline-corrected spectra acquired for malathion recovered from corn kernels reveal high-resolution malathion detection down to 5 μg/g (Figure 2). Note at these low concentrations, SERS spectra are very sensitive to any other SERS-active moieties present, including organic materials dissolved with the target compound and the SERS substrate itself.

Figure 2. Overlaid baseline-corrected spectra acquired from Au NPs show detection of malathion on field corn kernels to 5 μg/g.

Detection of malathion in the field

Place 2–3 pieces of corn in a vial and fill the vial halfway full with acetone, and allow to rest for 5 to 10 minutes, swirling occasionally. With a pipette, remove half of the solvent to a clean, dry vial and evaporate to dryness on a hotplate. Fill  this vial halfway full with Au NPs and add 2 drops of NaCl solution, then cap and shake the vial gently to mix. Insert into the vial attachment on Misa for measurement.

Table 2. Requirements for field test protocol
ID Kit - Au NP 6.07506.440
includes: Gold nanoparticles (Au NP)
Scoop
Disposable pipettes
2 mL glass vials
Reagents  
Acetone  
NaCl solution 3 g NaCl in 100 mL water
Test settings Use ID Kit OP on MISA

Misa offers a facile, green, and economical method for sensitive detection of malathion sprayed on corn ears. Based on the unoptimized protocol reported in this application note, Misa provides sufficient sensitivity for detecting malathion at concentrations that approximate or exceed the US maximum residue limit for sweet corn.

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