Flow-injection chemiluminescence determination of ultra low concentrations of nitrite in water

A reagent-injection flow injection procedure for the determination of nitrate and nitrite in water by reduction to NO followed by a membrane separation process and chemiluminescence detection, with air-stripping, is proposed. Microporous PTFE was used as a membrane to transfer NO to the gas phase af

DetectIon unth two polarized platmum wne electrodes 1s based on the oxldatlon of lodlde by mtnte The current IS proportlonal to the amount of lodme formed The Injected sample is spht m a flow-mlection mamfold mto two segments One of them 1s transported through a reductor mmlcolumn contammg coppenzed

A method is described for the determination of tryptophan in which it reacts with cerium(IV) in 0.15 M sulphuric acid. The method is rapid and precise and solutions can be analysed at a rate of 211 h-i with a relative standard deviation of ca. 0.45% at 12.5 pg ml-' and a limit of detection of 0.1 pg

Hydrogen peroxide ( H202) plays a key role in many marine chemical processes, e.g., redox reactions involving transition metals and organic compounds. A rapid, flow-injection procedure with chemiluminescence detection for the determination of H,Oz in sea water is reported. It is based on the H20z in

Dissolved copper can he rapldly detemuned m sea water by usmg a moddkation of a chemdummescence method The determmation 18 based on the formation of a complex between copper and l,lO-phenanthrolme and the subsequent enusslon of bght dunng the oxldatron of the complex by hydrogen peronde A flow-mJe&o