AI Article Synopsis
- Peptide-fluorophore conjugates (PFCs) are effective for detecting metal ions, specifically aluminum, to reduce health risks.
- A new chemoprobe was created by linking a rhodamine-B fluorophore to a tripeptide, showing unique aggregation-induced emission and forming nanoaggregates.
- The probe selectively detects aluminum ions with a very low detection limit and fast response time, and it is designed for practical use in test strips and a real-time analysis device.
Article Abstract
Peptide-fluorophore conjugates (PFCs) have been expeditiously utilized for metal ion recognition owing to their distinctive characteristics. Selective detection and quantification of aluminum is essential to minimize health and environmental risks. Herein, we report the synthesis and characterization of a new chemoprobe with aggregation-induced emission characteristics by chemically conjugating rhodamine-B fluorophore with a tripeptide. The probe revealed β-sheet secondary conformation in both solid and solution states, as confirmed by FT-IR, PXRD, and CD experiments. AIE characteristics of the probe in water-MeCN mixtures revealed the formation of spherically shaped nanoaggregates with an average size of 353 ± 7 nm, as confirmed by SEM, TEM, and DLS studies. The probe exhibited a large stokes shift (175 nm) and displayed selective colorimetric and fluorometric responses towards Al ions with an extremely low detection limit (51 nm) and a fast response time (≤15 s). Comparative NMR studies confirmed the cleavage of spirolactam ring upon aluminum binding. The probe's practicality was enhanced through integration into test strips and thin films, allowing solid-phase detection of Al ions. Furthermore, an RGB-Arduino enabled optosensing device has been developed to enable instant quantifiable analysis of aluminum concentrations in real-time conditions.
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| http://dx.doi.org/10.1016/j.saa.2024.124874 | DOI Listing |
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