Micellar extraction preconcentration of silver with thiazolylazo reagents into a nonionic surfactant phase at the cloud point

“…The extraction of 10 −5 M Ag(I) in non-ionic polyoxyethylated alkylphenol micelles solubilising TAR is limited by the distribution [50] of the Ag:TAR complex whereas Ag:TAN allows an extraction yield >99% in the same conditions [46]. For ionic extractants, a temperature change (a decrease in this case) can also induce a separation at the Kraft temperature.…”

Metal ion extraction in microheterogeneous systems

“…The extraction of 10 −5 M Ag(I) in non-ionic polyoxyethylated alkylphenol micelles solubilising TAR is limited by the distribution [50] of the Ag:TAR complex whereas Ag:TAN allows an extraction yield >99% in the same conditions [46]. For ionic extractants, a temperature change (a decrease in this case) can also induce a separation at the Kraft temperature.…”

Metal ion extraction in microheterogeneous systems

“…A number of applications have been proposed regarding the determination of transition metals, such as copper, silver, chromium, nickel, zinc, etc., using TAN. [20][21][22][23][24] In addition, thiazolylazonaphthol dyes like TAN were successfully applied in ow injection analysis (FIA) 25 and sequential injection analysis (SIA). 26 In analytical chemistry surfactants have found their main use in spectrophotometry and uorimetry.…”

A simple non-extractive green method for the spectrophotometric sequential injection determination of copper(ii) with novel thiazolylazo dyes

Separation and preconcentration by a cloud point extraction procedure for determination of metals: an overview