Chemiluminescence flow sensor with immobilized reagents for the determination of iron(III)

Iron(I1) (1.0 X 10-g-1.0 X 10e6 M) is determined by the production of chemiluminescence in a luminol system in the absence of added oxidant. Iron(II1) (2.0 x lo-'-2.0 x 10e6 M) is determined after reduction to iron(I1) in a silver reductor mini-column in the fiow system. Cobalt, chromium, copper and

## Abstract A novel chemieluminescence (CL) sensor for the determination of gallic acid combined with flow injection analysis was developed by electrostatically immobilizing luminol and periodate on anion‐exchange resins respectively. Gallic acid was sensed by its enhancing effect on the weak CL re

A highly sensitive flow analysis method for determination of acetylcholinesterase (AChE) inhibitors like organophosphorous pesticides using a new chemiluminescent reaction was developed and optimized. This method is fast, sensitive, and cheap, because it requires only one enzyme and its substrate. T

## Multistep enzymatic reactions take place when sulfated bile acids (SBAs) pass through an immobilized enzyme reactor. First, SBAs take place in the reaction of desulfation under catalytical action of a bile salt sulfatase immobilized in the reactor and formed 3b-hydroxyl bile acids. Formed 3b-hydr

A fast and sensitive flow-injection procedure is described for the determination of iron(II1). The complexing agent is ammonium diisopropyldithiophosphate in a 1:l (v/v) isopropanol/water carrier stream. The linear range is 0.05-l 5 mg 1-l iron(II1) with a detection limit of 0.01 mg 1-l and the inje