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Dual Optoelectronic Visual Detection and Quantification of Spectroscopically Silent Heavy Metal Toxins: A Multi-measurand Sensing Strategy Based on Rhodamine 6G as Chromo or Fluoro Ionophore

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dc.contributor.author Prathish, K P
dc.contributor.author James, D
dc.contributor.author Jaisy, J
dc.contributor.author Prasada Rao, T
dc.date.accessioned 2016-12-16T06:37:52Z
dc.date.available 2016-12-16T06:37:52Z
dc.date.issued 2009-07-04
dc.identifier.citation Analytica Chimica Acta, 647(1):84-89 en_US
dc.identifier.uri http://hdl.handle.net/123456789/2568
dc.description.abstract A novel colorimetric chemo-sensor for the simultaneous visual detection and quantification of spectroscopically silent heavy metal toxins viz. cadmium, lead and mercury has been developed. This is based on the proposed sequential ligand exchange (SLE) mechanism of iodide from Pb-I(-)-Rhodamine 6G ion associate with citrate (without affecting ion associates of Cd and Hg) and subsequently from Cd-I(-)-Rhodamine 6G ion associate with EDTA (without affecting Hg-I(-)-Rhodamine 6G). Multi-measurand detection and quantification by colorimetry is possible as the individual toxins gives identical bathochromic shifts in aqueous solution, i.e. from 530 to 575 nm on formation of ternary ion associates in singular, binary and ternary mixtures. The visual detection provides a simple, quick and sensitive detection method in addition to quantification via spectrophotometry with Sandell sensitivities of 1.1, 15 and 2.5 microg dm(-2) for cadmium, lead and mercury, respectively. The developed procedure has been successfully tested for the analysis of environmental (cast alkali, lead acid battery and zinc manufacturing industry effluents) samples. Furthermore, the multi-measurand quantification of the above-mentioned heavy metal toxins based on fluorescence quenching and use of Pyronine G as chromo-ionophore instead of Rhodamine 6G is also described. en_US
dc.language.iso en en_US
dc.publisher Elsevier en_US
dc.subject Multi-measurand detection and quantification en_US
dc.subject Chemo-sensor en_US
dc.subject Heavy metal toxins en_US
dc.subject Sequential ligand exchange en_US
dc.subject Natural waters en_US
dc.subject Industrial effluents en_US
dc.title Dual Optoelectronic Visual Detection and Quantification of Spectroscopically Silent Heavy Metal Toxins: A Multi-measurand Sensing Strategy Based on Rhodamine 6G as Chromo or Fluoro Ionophore en_US
dc.type Article en_US


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