Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5139008 | Microchemical Journal | 2017 | 5 Pages |
Abstract
A multi-commuted flow system was designed for implementing spectrophotometric methods based on relatively slow chemical reaction. It comprised six-way solenoid valves with reaction coils coupled to each port, which provided long sample zone residence times in the analytical path yet maintaining the sampling rate. Potentialities of the system were demonstrated by selecting the reaction of iodate (IO3â) with p-aminophenol (PAP) in acidic medium, which yielded a purple compound with absorption maximum at 540 nm. Although more than 40 min were needed for reaching chemical equilibrium, sampling rate of the proposed flow system was 70 hâ 1. The innovation was applied to iodate determination in table-salts, and favorable features such as a linear response from 2.28 Ã 10â 5 to 3.65 Ã 10â 4 mol Lâ 1 iodate, a detection limit (99.7% confidence level) of 8.2 Ã 10â 6 mol Lâ 1, and a coefficient of variation (n = 20; IO3â=1.37 Ã 10â 4 mol Lâ 1) of 0.42% were attained. Furthermore, pronounced lessening in reagent consumption and effluent generation, estimated at 1.05 mg PAP and 0.7 mL of waste per determination. The results agreed with those obtained by a titrimetric procedure at 95% confidence level.
Related Topics
Physical Sciences and Engineering
Chemistry
Analytical Chemistry
Authors
Amanda R.M. Silva, Marcos Y. Kamogawa, Wanessa R. Melchert,