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Hydroxyl group-enriched microporous organic network for high-performance solid-phase extraction of triazine herbicides: Experiment and DFT calculation on adsorption behavior
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•A novel functional OH–enriched MON was constructed and utilized as SPE adsorbent.•OH–MON exhibited ultrasensitive toward triazine herbicides via hydrogen–bonding.•DFT and selectivity test certify adsorption mechanism of triazine herbicides on OH–MON.•Sensitive SPE method was used to quantify triazine herbicides in water and fruit samples.
High-efficiency monitoring of triazine herbicides residues is vital in the evaluation of environmental and agro-food safety. Herein, we fabricated a spherical hydroxylated microporous organic network (OH–MON) with high surface area, high stability and rich hydrogen-bonding affinity sites suitable as an advanced solid-phase extraction (SPE) adsorbent for efficient adsorption of triazine herbicides. Density–functional theory calculations and competitive enrichment tests confirmed that hydrogen bonding played a vital role to the enrichment of triazine herbicides by OH–MON. This OH–MON SPE cartridge showed satisfactory reproducibility, maintaining its adsorption capacity after 10 adsorption–desorption cycles. Furthermore, we developed a sensitive analytical approach for determining triazine herbicides residues in water and fruit juice samples. Desirable linear correlations within 0.50–250 ng⋅L-1, an ultra-low detection limit (0.03–0.15 ng⋅L-1 for water; 0.04–0.21 ng⋅L-1 for fruit juice), good precision and high enrichment factor for triazine herbicides were achieved. A preliminary practical application of the developed method was proved by the efficient detection of triazine herbicides in water and fruit samples with good recoveries (72.8%−100.4% and 72.0%−97.7% for water and juice samples, respectively). This study serves as a good reference for designing the high-functionalized MON to capture contaminants and address environmental and agro-food safety issues.