2006
DOI: 10.1016/j.snb.2005.02.028
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Molecular imprinting strategy for solvent molecules and its application for QCM-based VOC vapor sensing

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Cited by 154 publications
(88 citation statements)
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“…The templated polymers show recognition properties resembling those found in biological receptors but they are more stable and considerably less expensive than biological systems (Malitesta et al, 2006). A range of molecularly-imprinted polymer-based sensors have been investigated using different transduction techniques, including: acoustic wave , Kugimiya et al, 1999, Liang et al, 2000, Matsuguchi et al, 2006, Percival et al, 2001, Yilmaz et al, 1999, potentiometry (Javanbakht et al, 2008), capacitance , conductometry (Kriz et al, 1996, Sergeyeva et al, 1999, voltammetry (Prasad et al, 2005), colorimetry (Stephenson et al, 2007), surface plasmon spectroscopy (Tokareva et al, www.intechopen.com 2006), and fluorescence (Chen et al, 2004, Jenkins et al, 2001, MorenoBondi et al, 2003 detection. Moreover, the molecularly-imprinted polymers can also be utilized for selective solid-phase separation techniques (Mahony et al, 2005, Masque et al, 2001, including electrophoresis and chromatography.…”
Section: Bio-inspired Molecularly-templated Polymer Films For Biomarkmentioning
confidence: 99%
“…The templated polymers show recognition properties resembling those found in biological receptors but they are more stable and considerably less expensive than biological systems (Malitesta et al, 2006). A range of molecularly-imprinted polymer-based sensors have been investigated using different transduction techniques, including: acoustic wave , Kugimiya et al, 1999, Liang et al, 2000, Matsuguchi et al, 2006, Percival et al, 2001, Yilmaz et al, 1999, potentiometry (Javanbakht et al, 2008), capacitance , conductometry (Kriz et al, 1996, Sergeyeva et al, 1999, voltammetry (Prasad et al, 2005), colorimetry (Stephenson et al, 2007), surface plasmon spectroscopy (Tokareva et al, www.intechopen.com 2006), and fluorescence (Chen et al, 2004, Jenkins et al, 2001, MorenoBondi et al, 2003 detection. Moreover, the molecularly-imprinted polymers can also be utilized for selective solid-phase separation techniques (Mahony et al, 2005, Masque et al, 2001, including electrophoresis and chromatography.…”
Section: Bio-inspired Molecularly-templated Polymer Films For Biomarkmentioning
confidence: 99%
“…The MIP-QCM of conventional method [17] can detect 200 ppm of VOC gases. On the other hand, the newly fabricated MIP-QCM sensor can detect 10 ppm of the gases.…”
Section: Selectivitymentioning
confidence: 99%
“…To overcome these problems, several methods were suggested. Matsuguchi et al applied the MIP method to gas sensor for VOC gases [17]. In the report, avoid PMMA was used for binding the MIP particle.…”
Section: Introductionmentioning
confidence: 99%
“…Thus, the QCM has been applied for the real-time sensing of gases, like water vapor and volatile organic vapors. [3][4][5][6][7][8][9][10] In order to impart chemical selectivity to QCM, it is essential to coat a receptor that can capture specific target molecules on the crystal. There have been possible receptors for the detection of VOCs.…”
Section: Introductionmentioning
confidence: 99%