Bias current modifies the selectivity of liquid membrane ion-selective microelectrodes

Abstract

A negative bias potential of up to −8- mV applied to the back of a liquid membrane ion-selective microelectrode containing classical “K⁺” ion-exchanger was found to make it more selective for millimolar concentrations of K⁺ over micromolar concentrations of choline, tetramethylammonium, tetraethylammonium and 5-hydroxytryptamine. Conversely, positive bias potential increased severalfold the sensitivity to micromolar concentrations of these ions while decreasing the sensitivity to K⁺. An increase in response amplitude for millimolar changes of ion concentration was also observed in neutral carrier electrodes for Na⁺, K⁺ and Ca²⁺ with negative bias potential. The various ions caused the resistances of the electrodes to change; these resistance changes contributed to the changes in response amplitude, but there were additional, unexplained, factors. The phenomenon was used to test if the signal from a K⁺ ion-exchanger microelectrode in extracellular space in bee retina was contaminated by substances other than K⁺.