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Article Abstract
Al, N-doped carbon dots (Al-NCDs) with a 315-nm Stokes shift and 31.4% quantum yield were designed to mitigate autofluorescence interference in complex matrices. DFT calculations coupled with structural studies revealed an Al-pyridinic-N coordination modulated electronic transitions, enabling the unique optical properties. Al-NCDs exhibited high sensitivity and selectivity toward Hg, enabling a dual-functional Hg control platform integrating rapid detection and removal. The rapid detection achieved a 0.030 ~ 4.0 μmol·L linear range and 8.0 nmol·L detection limit which was applied to agro-samples and river water with recoveries of 90.0 ~ 116.3%. Moreover, smartphone-based on-site detection (LOD: 0.2 μmol·L, 30 samples/10 min) further extends practicality. Crucially, Al-NCDs-embedded nanohydrogels exhibit rapid Hg removal with capacity of 287.2 mg·g, completing the "detection-remediation" control chain. This dual-functional platform bridges large Stokes-shift sensoring with food safety interventions, providing a prototype for Hg control in complex systems.
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