THE SILVER ELECTRODE IN SQUARE-WAVE ANODIC-STRIPPING VOLTAMMETRY - DETERMINATION OF PB2+ WITHOUT REMOVAL OF OXYGEN

A silver rotating disk electrode is used for the determination of lead in concentrations from 2 x 10(-9) to 3 x 10(-7) M by square-wave anod ic stripping voltammetry (SWASV) without removal of oxygen. The repeat ability of consecutive SWASV runs in synthetic solutions covering the entire concentration range is better than 2%. The calibration curve is represented by a correlation coefficient of at least 0.999. The detec tion limit for a 2-min electrodeposition is 0.5 nM. Up to 600 runs can be carried out on synthetic solutions without any pretreatment of the electrode. A 4-fold excess of Cd2+ and a 10 000-fold excess of Cu2+ d o not interfere with the determination of part-per-billion concentrati ons of Pb2+. Surfactants present in tap water distort the SWASV. Impro vement of the analytical response in tap water is achieved by pretreat ment of the samples: irradiation at 254 nm or digestion with HNO3. Dur ing anodic stripping voltammetry in the concentration range studied, a uniformly distributed submonolayer of lead, occupying 0.02%-1% of the real surface of the electrode, is formed by underpotential deposition , Linearity in calibration plot is achieved up to 1% electrode coverag e; in terms of the experimental parameters of the deposition step (rat e of rotation and time of electrolysis), this condition for linearity is C(Pb2+)N(1/2)t(d) less than or equal to 2.2 x 10(5) nM rpm(1/2)s.