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Fluorescent sensory MIP (molecularly imprinted polymer) particles were combined with a droplet-based 3D microfluidic system for the sensitive and selective determination of 2,4-dichlorophenoxyacetic acid (2,4-D) in water samples. 2,4-D being an important and widely used herbicide to regulate plant growth, its extensive use leads to food or ground water contamination. Analytical assays based on MIP have emerged as a valuable tool in the field of environmental analysis thanks to low production costs, stability, format adaptability and their ability to recognize a wide variety of targets, such as the critical neutral organic molecules present in water: herbicides, pesticides, antibiotics, etc.
To accomplish this, a tailor-made fluorescent indicator cross-linker was designed that translates directly the binding event into an enhanced fluorescence signal. This phenoxazinone-type cross-linker was co-polymerized into a thin MIP layer grafted from the surface of silica microparticles. The latter was achieved by integration of the fluorescent core-shell MIP sensor particles into a modular microfluidic platform that allows for an in-line phase-transfer assay, extracting the analyte from aqueous sample droplets into organic phase droplets that contain the sensor particles.
This tool offering a novel simple and rapid way for the detection of herbicides, real-time fluorescence determination of 2,4-D down to 20 nM was realized with the system and applied for the analysis of worlwide surface water samples.