great promise for environmental mon

great promise for environmental monitoring of trace ionic tin.
However, in the case of measuring total tin in environmental
samples, an appropriate digestion step, e.g. ultraviolet irradi-ation or treatment with mineral or carboxylic acid should be
usually considered[24].
4. Conclusions
In this work, we have demonstrated the applicability of bis-muth film electrode for measurement of trace tin. The BiFE
was prepared in situ on the surface of the glassy carbon sub-strate electrode and operated in anodic stripping voltammetric
mode in combination with catechol as complexing agent. The
electrode exhibited two distinct stripping voltammetric signals
for tin with a favorable linear concentration dependency in both
examined concentration ranges from 1 to 10gL
−1
and from 10
to 100gL
−1
tin. To improve the electroanalytical performance
of BiFE, we optimized several operational key parameters, such
as concentration of catechol and bismuth, accumulation poten-tial and time and pH of the measurement solution. Comparison
of BiFE with the mercury film electrode and with a bare glassy
carbon electrode in non-deaerated model solutions revealed the
superior performance of the BiFE, in particular, concerning the
insensitivity toward the sequence of adding catechol and tin to
the measurement solution, which suggests the possibility for
application of BiFE in trace measurements of ionic tin in real
samples. Examination of the analytical behavior of the procedure
revealed an LoD of 0.26gL
−1
of tin, and good reproducibility
with a calculated R.S.D. of 7.3% (n= 10). To prove its practical
applicability, the electrode was tested for the detection of tin in
a real non-deaerated sample of seawater.
Acknowledgement
Financial support from the Ministry of Higher Education,
Science and Technology of the Republic of Slovenia is gratefully
acknowledged (P1-0034 and Z1-6370)