• Title of article

    Quantification of the Concentration of Ionic Impurities in Polymeric Sensing Membranes with the Segmented Sandwich Technique

  • Author/Authors

    Bakker، Eric نويسنده , , Qin، Yu نويسنده ,

  • Issue Information
    دوهفته نامه با شماره پیاپی سال 2001
  • Pages
    -4261
  • From page
    4262
  • To page
    0
  • Abstract
    Ionic impurities in solvent polymeric membranes have been the main reason early ion-selective electrodes (ISEs) without added ion exchanger exhibited a functional potentiometric response. Today, knowledge of such impurities and their elimination becomes important in view of designing ISEs with low detection limits and voltammetric ion-selective electrodes, to increase operational lifetime, and to optimize sensing selectivity. Here, a potentiometric segmented sandwich membrane technique is used to study the amount and properties of impurities in situ directly in the membrane phase. This technique can be used with a number of ionophores and with different membrane matrixes and does not require specialized equipment. The concentration of anionic impurities in PVC-DOS (bis(2-ethylhexyl) sebacate) and PVCNPOE (o-nitrophenyloctyl ether) was found to be on the order of 100 mumol/kg with membranes containing weakly binding potassium ionophores. The concentration of cationexchanger sites of carboxylated PVC-NPOE was found to be higher (1.62 mmol/kg). Addition of the neutral lipophilic salt ETH 500 to both membrane segments had only a marginal effect on the results for PVC-NPOE membranes but had a large impact on the observed membrane potential for PVC-DOS membranes. Theory explains that the addition of such salt to membranes where ion pairing is predominant is essential for the accurate assessment of ionic impurities with this technique.
  • Keywords
    Trifolium pratense , red clover , Solid-phase extraction (SPE) , Isoflavone glycoside 6"-O-acetates , High-performance liquid chromatography-mass spectrometry (LC-MS) , Isoflavone glycoside 6"-O-malonates
  • Journal title
    Analytical Chemistry
  • Serial Year
    2001
  • Journal title
    Analytical Chemistry
  • Record number

    51864