Microplastics have emerged as significant pollutants in both terrestrial and marine ecosystems, with their accumulation posing a threat to human health through biomagnification along the food chain. The development of a rapid, on-site and sensitive method for detecting microplastics in agri-food and environmental systems is important for assessing and minimizing their potential risks. In this study, we develop a novel surface-enhanced Raman spectroscopy (SERS) technique for the rapid, on-site and ultrasensitive detection of microplastics. Our innovative technique incorporates zirconium (IV)-assisted SERS label strategies, utilizing rhodamine B as a Raman reporter to improve microplastics analysis. By utilizing zirconium-assisted SERS label approaches, we can achieve both qualitative and ultrasensitive quantification of 10 μm polystyrene microplastics (PSMPs) at concentrations as low as 0.1 ppm, with a detection limit of 1 ppb. Furthermore, this approach allows for the detection of microplastics in real-world scenarios, with recovery rates exceeding 90% for polystyrene microplastics concentrations ranging from 5 ppm to 30 ppm in tap water systems. When integrated with a portable Raman spectrometer, this innovative approach showcases the rapid, on-site, accurate, and sensitive detection of microplastics and has great potential for the analysis of various types of microplastics in agri-food and environmental systems.

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