Cailiao gongcheng (Mar 2023)
Effect of organic additives on properties of three dimensional porous lead dioxide anode
Abstract
A series of three-dimensional porous lead dioxide anode materials were prepared by anodizing method using oxygen bubbles as templates. The effects of additives sodium acetate, cetyltrimethyl ammonium bromide(CTAB), sodium dodecyl benzene sulfonate(SDBS) and polyethylene glycol(PEG) on three-dimensional porous PbO2 anode materials were studied. The morphology and phase composition of the electrode surface were characterized by SEM and XRD. The electrocatalytic activity of the electrode material in Na2SO4 solution was determined by anodic polarization curve(LSV), cyclic voltammetry curve(CV) and AC impedance spectrum(EIS).The results show that after the addition of additives, the directional arrangement on the surface of the plating bath can promote the uniform dispersion of Pb2+, when PbO2 is deposited, the surface is coated, the particle aggregation is reduced, and the coating is flatter and denser; at the same time, due to the adsorption of organic additives, the preferred orientation of grains is changed, but the crystal form is not changed, the prepared electrode materials are still β-PbO2 with complete morphology and three-dimensional porous structure. With the addition of organic additives, the pore density of the electrode material is increased, the specific surface area of the electrode material is promoted, the charge transfer resistance in the electrocatalysis process is reduced, and the electrocatalytic activity of the electrode material is improved. Among all organic additives, the porous PbO2 electrodes added with SDBS has the largest j0 (5.514×10-5 A·cm-2) and the smallest Rct (0.3395 Ω·cm2), showing good electrocatalytic performance. According to the CV data, the qi* of the PbO2 electrode with SDBS is 0.652 C·cm-2, which is 4 times higher than that of the porous PbO2 electrode without additive, The addition of organic additives effectively increases the electrochemically active surface area of the electrode material.
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