Field Method for Estimation of Fuoride in Drinking Groundwater by Photometric Measurement of Spot on Impregnated Reagent Paper
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Date
2015-04-21
Authors
Barghouthi, Zaher
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Abstract
Few years ago WHO decided to make mandatory the determination of fluorine
and arsenic in drinking water. The reason is that in large parts of the world the
population is exposed to these elements at toxic levels, more than 100 million are
exposed to arsenic and about 62 million to fluorine, and in some parts like Inner
Magnolia, people are exposed to high levels of both elements. Because most of
the countries with such health problems belong to third world, the number of
existing laboratories is not sufficient to control the amount of these elements.
Therefore, simple field method are favored to allow a reliable determination right
at the source. To determine arsenic a small handheld instrument based on a
photometric measurements of reagent paper was developed and now is available.
There is an urgent need to expand the functionality of this small instrument to
analyze fluorine too.
Through the search for the best fluoride reagent, 94 possible ligands containing
groups capable of holding metals in stable combination were examined. These
ligands belong to the main types of dyes: triphenylmethane, azo, and
anthraqunion dyes. For an optimal result it turned out new prepared a polymeric
aluminum complex of 5-(2-carboxyphenylazo)-8-hydroxyquinoline (LH2), and
aluminumquinalizarine 2:1 complex. The reagent reacts on an impregnated paper
in the following way:
AlLH2(yellow) + 6F-→ AlF6-3(colorless)+ LH2 (red)
Al2 [quinalizarin](pink) + + 6F-→ AlF6-3(colorless)+ [quinalizarin](orange)
The molar absorptivity of the complex formation of the above two reagents is
8.48 ˣ 103 L mol-1 cm-1 at 410 nm and 4.41 L mol-1 cm-1 at 553 nm respectively.
For the field instrument the analytical range from 0.0 to 2.0 μg ml-1 is linear. The
limit of determination is 0.3 μg ml-1. The recovery of 1.0 μg ml-1 is 96.2% and
104.7% respectively. There is no interference by nitrate or chloride. Sulfate
interfered with the measurement, but at high concentrations which are not
expected in drinking water.
An interesting results were obtained with aluminum complexes of
Triphenylmethane dyes, Flavonoid Chrysin, and Resocrin Blue. However, these
complexes can be recommended as spectrophotometric reagent for fluoride
determination in water.
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Keywords
fluoride analysis , drinking water , field method , impregnated paper , aluminum -azo dye complex , Arsenator