Abstract: Fluoroionophores of formula (I) wherein R06 is H or substituted or unsubstituted C1-C20alkyl, R6 is H or substituted or unsubstituted C1-C30alkyl or C1-C30alkoxy, R1 is a bridging group, and F is a residue of a fluorophore. The fluoroionophores may be covalently bound to support materials and may be used as active components in polymer membranes of optical sensors for the detection of ions. The sensors are distinguished by short response times, a high degree of sensitivity and a long usable life.

Abstract: Fluoroionophores that are functionalised with reactive groups and correspond to the formula I—R1—F—R2—G, wherein I is a monovalen residue of an ionophore, wherein F is a divalent residue of a fluorophore, wherein G is a functional group and R1 and R2 are each independently of the other a direct bond or a bridging group. The fluoroionophores may be covalently bound to carrier materials and are used as active components in polymer membranes of optical sensors for the detection of ions. The sensors are distinguished by a long usable life and a high degree of sensitivity.

Abstract: Compounds, constructed in modular manner, of formula (I), wherein I is the monovalent residue of an ionophore, F is the monovalent residue of a fluorophore, G is a functional group, T is a trivalent organic radical and R01, R02 and R03 are each independently of the others a direct bond or a bridging group. The compounds may be used in immobilized form as active components in polymer membranes of optical sensors for the detection of ions. The sensors are distinguished by a long usable life and a high degree of sensitivity.