Potentiometric anion selective sensors

M.M.G. Antonisse, David Reinhoudt

    Research output: Contribution to journalArticleAcademicpeer-review

    136 Citations (Scopus)
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    Abstract

    In comparison with selective receptors (and sensors) for cationic species, work on the selective complexation and detection of anions is of more recent date. There are three important components for a sensor, a transducer element, a membrane material that separates the transducer element and the aqueous solution, and the receptor molecule that introduces the selectivity. This review deals with potentiometric transduction elements that convert membrane potentials into a signal. The structure and properties of membrane materials is discussed. The nature of the anion receptor ultimately determines the selectivity. Both coordination chemistry and hydrogen bonding have been used to design anion receptor molecules. The integration of all three elements by covalent linkage of all elements in durable sensorsystem concludes the review.
    Original languageUndefined
    Pages (from-to)1035-1048
    JournalElectroanalysis
    Volume11
    Issue number11
    DOIs
    Publication statusPublished - 1999

    Keywords

    • METIS-106349
    • CHEMFET
    • IR-11811
    • Chemical sensors
    • Polysiloxanes
    • Porphyrins
    • Tentiometric sensors
    • Plasticizer
    • Polyacrylate membranes
    • Phthalocyanines
    • Uranyl salophenes
    • MEMFET
    • Selector
    • Transduction element
    • Hofmeister series
    • Heparin sensor
    • Ion exchange membranes
    • Ion-selective electrode
    • Ion-selective membranes
    • Coatedwire electrode
    • Anion complexation
    • Anion receptors

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