The use of microemulsions in flow injection analysis: Spectrofluorimetric determination of primary amines

Calcium can be determined spectrofluornnetrlcally (Aem = 520 nm, A, = 365 nm) based on Its reaction wth Calcem m strongly alkahne solution m a flow-m]ectlon system The tamer stream was delomsed water and the reagent streams were 06 M potassmm hydroxide and 60 kg ml -\* Calcem The mJectlon rate was 5

Sulphate can be determined spectrofluorimetrically (A,, = 505 nm, A,, = 410 nm) based on the formation of a ternary complex between sulphate, zirconium and calcein in a flow-injection system. The carrier stream was deionised water and the reagent streams were 100 pg ml \_ ' Zr (as ZrOCl,) in 1% (v/v

A flow injection-spectrofluorimetric method is reported for the determination of fluoride, based on the ability of trace fluoride to increase the rate of formation of a fluorescent Al(III)-Eriochrome Red B complex in the presence of hexamethylenetetramine. Various chemical and physical variables aff

Boron can be determined spectrofluorimetrically based on the reaction of borate ion and Alizarin Red S in aqueous media using flow-injection analysis. The carrier stream was deionized water and the reagent streams were 1% (w/v) EDTA, phosphate buffer (pH 7.5) and 2 X lo-' M Alizarin Red S solutions.