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The behaviors ot PbSO4/Pb and PbO4/PbSO4 electrode prepared from PbCO3 have been examined using powder microelectrode(PME) technique and cyclic voltammetry(CV). Firstly, PMEs parked with Pb- CO3 transformed into PtSO4 PME in 1. 0 mol/L H2SO4 solution at 30 C, and then the PbSO4 in the PMEs were formed to Pb or PbO2 using an unsymmetrical signal(Qa/Qe for PbSO4/Pb electrode and Qe/Qa for PsO2/ PbSO4 electrode being 0. 1-0. 3) in 2. S mol/L H2SO4 solution. The results show that the CV characteristic of either PbSO4/Pb or PsO2/PbSO4 PME prepared from PhCO3 are as good as that of both electrodes made from lead oxide powder produced by ball mill.
The behaviors ot PbSO4 / Pb and PbO4 / PbSO4 electrode prepared from PbCO3 have been examined using powder microelectrode (PME) technique and cyclic voltammetry (CV). Firstly, PMEs parked with Pb-CO3 transformed into PtSO4 PME in 1. 0 mol / L H2SO4 solution at 30 C, and then the PbSO4 in the PMEs were formed to Pb or PbO2 using an unsymmetrical signal (Qa / Qe for PbSO4 / Pb electrode and Qe / Qa for PsO2 / PbSO4 electrode being 0. 1-0. 3) in 2. S mol / L H2SO4 solution. The results show that the CV characteristic of either PbSO4 / Pb or PsO2 / PbSO4 PME prepared from PhCO3 are as good as that of both electrodes made from lead oxide powder produced by ball mill.