Determination of picloram in natural waters employing sequential injection square wave voltammetry using the hanging mercury drop electrode

This paper describes the development of a sequential injection analysis method to automate the determination of picloram by square wave voltammetry exploiting the concept of monosegmented flow analysis to perform in-line sample conditioning and standard addition. To perform these tasks, an 800 mu L monosegment is formed, composed by 400 VL of sample and 400 mu L of conditioning/standard solution, in medium of 0.10 mol L-1 H2SO4. Homogenization of the monosegment is achieved by three flow reversals. After homogenization the mixture zone is injected toward the flow cell, which is adapted to the capillary of a hanging drop mercury electrode, at a flow rate of 50 mu L s(-1). After a suitable delay time, the potential is scanned from -0.5 to - 1.0 V versus Ag/AgCl at frequency of 300 Hz and pulse height of 25 mV. The linear dynamic range is observed for picloram, concentrations between 0.10 and 2.50 mg L-1 fitting to the linear equation I-p = (-2.19 +/- 0.03)C-piclocam + (0.096 +/- 0.039), with R-2 = 0.9996, for which the slope is given in mu A L mg(-1). The detection and quantification limits are 0.036 and 0.12 mg L-1, respectively. The sampling frequency is 37 h(-1) when the standard addition protocol is followed, but can be increased to 41 h(-1) if the protocol to obtain in-line external calibration curve is used for quantification. The method was applied for determination of piclorarn in spiked water samples and the accuracy was evaluated by comparison with high performance liquid chromatography using molecular absorption at 220nm for detection. No evidences of statistically significant differences between the two methods were observed. (C) 2007 Elsevier B.V. All rights reserved.