Karl Doblhofer scite author profile

The charge-transfer reaction between copper͑II͒ and copper electrodes is studied in electrolytes that are similar to galvanic copper baths, 2.2 M H 2 SO 4 ϩ 0.3 M CuSO 4 ϩ chloride ions (c Cl р 1 ϫ 10 Ϫ2 M͒, and polyethyleneglycol 1500 ͑PEG, c PEG р 4 ϫ 10 Ϫ3 M͒. Electrochemical quartz crystal microbalance ͑EQCM͒ measurements are conducted, mainly under conditions of cyclic voltammetry. The formation and dissolution of CuCl on the electrode surface at c Cl у 2 mM is demonstrated, a notable shift of the pseudo-equilibrium potential associated with CuCl deposition is analyzed, and the inhibition of the charge-transfer reaction by the PEG/Cl Ϫ surface layer is characterized. It is shown that the inhibiting layer forms by reaction between the adsorbate-covered copper electrode and PEG, i.e., neither Cu ϩ nor Cu ϩϩ from the electrolyte are required. Numerical simulations of the processes as well as parallel experiments conducted with electrolytes not containing Cu͑II͒ support the proposed mechanisms, in particular the role of the intermediate Cu ϩ .

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XPS observation of OH groups incorporated in an Ag(111) electrode

Zemlyanov

Savinova

Scheybal

et al. 1998

Surface Science

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Autocatalytic mechanism of H2O2 reduction on Ag electrodes in acidic electrolyte: experiments and simulations

Flätgen

Wasle

Lübke

et al. 1999

Electrochimica Acta

129

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Mechanism of peroxodisulfate reduction at a polycrystalline gold electrode

Samec

Doblhofer

1994

Journal of Electroanalytical Chemistry

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Karl Doblhofer

Copper ion reduction catalyzed by chloride ions

An EQCM Study of the Electrochemical Copper(II)/Copper(I)/Copper System in the Presence of PEG and Chloride Ions

XPS observation of OH groups incorporated in an Ag(111) electrode

Autocatalytic mechanism of H2O2 reduction on Ag electrodes in acidic electrolyte: experiments and simulations

Mechanism of peroxodisulfate reduction at a polycrystalline gold electrode

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