%0 Journal Article
%A Pablos Lagartos, Jesús Luis
%A Ibeas Cortés, Saturnino 
%A Muñoz Santamaría, María Asunción 
%A Serna Arenas, Felipe José
%A García García, Félix Clemente 
%A García Pérez, José Miguel
%T Solid polymer and metallogel networks based on a fluorene derivative as fluorescent and colourimetric chemosensors for Hg(II)
%D 2014
%@ 1381-5148
%U https://hdl.handle.net/20.500.14352/99157
%X This work describes two sensing systems for the detection and quantification of Hg(II): (a) a highly tractable solid polymer membrane, and (b) a gelling system based on a low molecular weight gelator. The preparation of both sensory systems relies on a polymerisable acrylic monomer derived from a fluorene core containing a functional hydroxyimino group, which at the same time is an organogelator with Hg(II)-triggered gelating properties in organic solution. The polymerisation of this monomer with commercial comonomers gave a cross-linked membrane or film, which permitted the detection of Hg(II) using UV/Vis and fluorescence techniques due to the colour and fluorescence changes in response to the interaction of the film with Hg(II). At the same time, organic solutions of the monomer – or gelator – gave a gel upon interacting with Hg(II). Engineering of the gel formation conditions permitted the tuning of the visual detection threshold of the concentration of Hg(II), which ranged from 6 × 10−3 to 1 × 10−2 M in our study, while the membrane permitted the detection by UV/Vis and fluorescence spectroscopy of Hg(II) in organic and organic/aqueous media in the millimolar–micromolar range. Furthermore, the colour and fluorescence changes of the two systems were clearly visible, allowing for the naked-eye detection and broad quantification of milli to micromolar concentrations of Hg(II).
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