1987
DOI: 10.1021/ac00151a005
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Multisensing ion-selective field effect transistors prepared by ionophore doping technique

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Cited by 32 publications
(19 citation statements)
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“…Bezegh et al (10) have suggested the shorter lifetime of electrodes with a solid state/membrane interface could result from differences in morphology arising from rapid evaporation of casting solvent from the solid-state sensor. However, we have prepared the solid-state devices under a saturated THF atmosphere and the membranes require about 24 h to dry, which is similar to the drying time of ISE membranes cast in the usual manner (11).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Bezegh et al (10) have suggested the shorter lifetime of electrodes with a solid state/membrane interface could result from differences in morphology arising from rapid evaporation of casting solvent from the solid-state sensor. However, we have prepared the solid-state devices under a saturated THF atmosphere and the membranes require about 24 h to dry, which is similar to the drying time of ISE membranes cast in the usual manner (11).…”
Section: Resultsmentioning
confidence: 99%
“…The key feature of this approach is that mobility of the plasticizer in the membrane would likely be reduced, and its solubility in water decreased, which are both potentially useful features in membranes coated on integrated devices (8)(9)(10). At the same time no surface adhesion results from this approach, so the effects of cross-linking can be studied separately.…”
mentioning
confidence: 99%
“…The calculated selectivity coefficients of the presented EGFET-based chloride ion sensor for four different interfering ions (OH − , F − , SO 2− 4 , and Br − ) are listed in Table 1. 18,28,29 All of the four devices listed in the new added Table 2 are FET-based chloride ion sensors, and only this work presented a high-sensing linearity and low-hysteresis voltage characteristics of the implemented chloride ion sensors. Finally, as shown in Table 2, we compared the six sensing characteristics (including sensitivity, sensing linearity, linear range, hysteresis voltage, lifetime, and selectivity) obtained in this study using the optimum compositions with those in the previous literatures.…”
Section: Characterization Of the Egfet-basedmentioning
confidence: 95%
“…One of the main advantages of ISFETs is that they are non-selective, and may be used with any suitable ionic solution [ 226 ]. Therefore, if processed with a suitable selective membrane (e.g., by using an ionophore) they are able to detect multiple different ions in solution [ 227 ]. One drawback to this is that with the sensor being sensitive to multiple different types of ions, any leakage of solution or change in the external environment affecting the pH of the solution, will change the ISFET reading.…”
Section: Electrical Biosensorsmentioning
confidence: 99%
“…One drawback to this is that with the sensor being sensitive to multiple different types of ions, any leakage of solution or change in the external environment affecting the pH of the solution, will change the ISFET reading. Over the longer term, this is particularly an issue, as hydrogen ions are difficult to prevent from permeating a membrane due to their small size [ 227 ]. Fortunately, an advantage for ISFETs (and other FET-based sensors) is that due to the huge commercial interest in transistor technology, miniaturisation of FETs is now very straightforward.…”
Section: Electrical Biosensorsmentioning
confidence: 99%