Publication date: 1 April 2018
Source:Talanta, Volume 180
Author(s): Wenli Hou, Yuan Chen, Qiujun Lu, Meiling Liu, Youyu Zhang, Shouzhuo Yao
Fluorescence nanoprobes are frequently employed to construct sensitive biosensors via turn-on and turn-off strategy. In this paper, a novel strategy for ultrasensitive detection of iodide was firstly constructed based on Ag+ regulated photoluminescence enhancement of gold nanoclusters (AuNCs) as a turn-off nanoplatform. In the presence of Ag+, the fluorescence (FL) intensity of AuNCs can be enhanced obviously. When adding iodide ions (I-) in the Ag+-AuNCs, Ag+ can be pulled down from AuNCs and results in quenching of the fluorescent effectively owing to the combination between Ag+ and I-. Compared with that of I- directly reaction with AuNCs, the introducing of Ag+ shows improved quenching efficiency from 32% to 66% since I- can react with Ag+ as well as AuNCs. Therefore, the platform could be applied to assay Ag+ and I-, on the basis of the FL enhancement and the further FL quenching. The detection ranges and detection limits were 0.2–12μM and 0.06μM for Ag+, 0.001–6μM and 0.3nM for I-, respectively. The new sensing method based on ion regulation to enhance the detection sensitivity can extend to the appliance of other fluorescent materials in biosensing and biomedical field.
Graphical abstract
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