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- Title
Naked eye and smartphone applicable detection of toxic mercury ions using fluorescent carbon nanodots.
- Authors
BAÇ, Burcu; GENÇ, Rükan
- Abstract
Chitosan passivated carbon nanodots (C-DotsCHIT) were synthesized from expired molasses via a simple and green thermal synthesis procedure. As-synthesized C-Dots were nitrogen-doped (NC-DotsCHIT) by posttreatment with liquid ammonia and used as nanoprobes for fluorometric detection of mercury ions (Hg(II) aq.) . Fluorescence response of NC-DotsCHIT in the presence of mercury was evaluated and compared with that of the polyethylene glycol passivated C-DotsPEG. This sensing strategy using NC-DotsCHIT displayed a wide linear working range from 1.25 μg/mL to 43.54 μg/mL with a detection limit of 1.41 μg/mL. The fluorescence of C-DotsPEG did not show any significant change upon mercury addition. Selectivity of as-synthesized NC-DotsCHIT to Hg(II) aq. was assessed by comparing the level of fluorescence quenching in the presence of four other divalent cations (cadmium(II), zinc(II), nickel(II), and copper(II)). Finally, synthesized nanoprobes were embedded into the cross-linked alginate hydrogels and test strips were formed on the FTO-coated glass. Images captured under a UV light source (λexc: 365 nm) were successfully processed by a smartphone application. Color codes generated by the app showed a close resemblance to the data gathered from fluorescence spectroscopy. The proposed detection system was applied satisfactorily to both a certified calibration standard and real water samples. The methodology developed within this study could be a potential candidate for detection of mercury concentration in water samples with high recovery rates reaching up to 98%. This smartphone applicable detection platform that uses carbon nanodots as cheap yet sensitive nanoprobes could lead to more advanced lab-on-site systems for water or food sample analysis that can be performed by anyone, anywhere, anytime.
- Subjects
CHITOSAN; LIQUID ammonia; POLYETHYLENE glycol; NANO-probe sensors; HYDROGELS; FLUORESCENCE spectroscopy
- Publication
Turkish Journal of Chemistry, 2017, Vol 41, Issue 6, p931
- ISSN
1300-0527
- Publication type
Article
- DOI
10.3906/kim-1701-46