کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
5008886 | 1462040 | 2017 | 11 صفحه PDF | دانلود رایگان |
- Thioether-functionalized probe 1 with a dipodal pyrene fluorophore was synthesized.
- Probe 1 detected Hg2+ with high selectivity and ultra-sensitivity (LODÂ =Â 1Â nM).
- [1+Hg2+] complex was effective at sensing dithiouracil (DTU) among various biomolecules via an “OFF-ON” mechanism.
- The cascade detection of probe 1 for Hg2+ and DTU implies its utility as for a logic gate and molecular switch.
A thioether-functionalized probe with a dipodal pyrene-sulfonamide fluorophore (probe 1) was synthesized for the selective and sensitive detection of Hg2+ in aqueous solutions. In addition, a probe with a monopod pyrene-sulfonamide unit was prepared (probe 2). Among various metal ions, these two probes appeared to selectively bind to Hg2+ at a 1:1 ratio, with a stronger association of probe 1 than probe 2, as evidenced by titration experiments. The green emission displayed by probe 1 was completely quenched by the coordination of Hg2+ to sulfur (ON-OFF), presumably via energy transfer from the pyrene fluorophore to the [sulfur-Hg2+] unit. The limit of detection (LOD) was 1Â nM (0.22Â ppb), one of the lowest values obtained so far. Furthermore, the in situ-prepared [1+Hg2+] complex continued to be utilized to selectively detect dithiouracil (DTU) via an “OFF-ON” mechanism among diverse biomolecules, along with an LOD of 20Â nM. Thus, probe 1 alone or together with Hg2+ allowed the cascade detection of Hg2+ and DTU with high selectivity and ultra-sensitivity. The current study indicates that probe 1 not only serves as an 'INHIBIT and AND' logic gate, but also works as an “ONâOFFâON” molecular switch triggered by the sequential addition of Hg2+ and DTU.
Probe 1 serves as an “INHIBIT and AND” logic gates as well as “ONâOFFâON” molecular switch triggered by the addition of Hg2+ and DTU having LOD of 1Â nM and 20Â nM respectively, in aqueous solution.130
Journal: Sensors and Actuators B: Chemical - Volume 251, November 2017, Pages 416-426