Abstract
Double-barreled ion-exchanger based K+-selective microelectrodes (K+ ISMs) of a variety of tip diameters were used to study the dependency of ion selectivity upon tip size. The selectivity of K+ ISMs depended on tip size and barrel configuration. Within the range of tip diameters tested (approximately 0.5-6 micron) all K+ ISMs constructed of two barrels glued side by side ("figure-eight glass") exhibited sensitivity to K+ and NH4+. Figure-eight K+ ISMs with tip diameters less than 1.5 micron were not sensitive to tetramethylammonium, tetraethylammonium, or choline, whereas K+ ISMs with tip diameters greater than or equal to 1.5 micron sensed all of the quaternary amines. Tip size dependent selectivity was not present in K+ ISMs made from thick septum theta glass. The explanation for tip size dependent changes in ion selectivity is unknown but a discussion of theoretical possibilities is given.
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