Issue 7, 2012

A FRET system built on quartz plate as a ratiometric fluorescence sensor for mercury ions in water

Abstract

Due to the hazardous nature of mercury ions, the development of a cost effective, sensitive and field-portable sensor is of high significance for both industry and civilian use. In this work, a FRET-based ratiometric sensor for detecting mercury ions in water was fabricated by depositing a multilayered silica structure on a quartz plate. For the preparation of the film-based sensor, a silica support layer was first deposited on the quartz plate by using the sol–gel spin-coating procedure, and three ultrathin functional layers (donor, spacer and receptor) were then deposited on the support layer by dip-coating in a stepwise manner in toluene solution. As the film-based sensor was placed into an aqueous solution of Hg2+, the non-fluorescent receptor (a spirolactam rhodamine derivative) on the film surface could form a complex with the mercury ion and act as the acceptor of the energy transfer. Upon excitation, the donor (a nitrobenzoxadiazolyl derivative, NBD) could transfer its excited energy from the donor layer to the acceptor on the film surface via the ‘through space’ energy transfer process, thus realizing the FRET-based ratiometric sensing for mercury ions. The sensor can selectively detect Hg2+ in water with the detection limit of 1 μM. This solid film sensor is capable of being easily-portable and visualized detection. This strategy may offer new approaches for constructing other FRET-based solid-state devices.

Graphical abstract: A FRET system built on quartz plate as a ratiometric fluorescence sensor for mercury ions in water

Supplementary files

Article information

Article type
Paper
Submitted
08 Dec 2011
Accepted
19 Jan 2012
First published
22 Feb 2012

Analyst, 2012,137, 1698-1705

A FRET system built on quartz plate as a ratiometric fluorescence sensor for mercury ions in water

B. Liu, F. Zeng, Y. Liu and S. Wu, Analyst, 2012, 137, 1698 DOI: 10.1039/C2AN16231H

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