Abstract

The direct or indirect effects of two different copper(II)-lactate complex species, Cu(H–1L)L– and Cu(H–1L)2 2–, on the orientation and electrical properties of Cu2O electrodeposits were examined, where L– = CH3CH(OH)COO– and H–1L2– = CH3CH(O–)COO–. To investigate the relationships between the copper(II)-lactate complex species and several properties of Cu2O, a set of Cu2O layers was electrodeposited from thermodynamically well-stabilized electrolytes of different pHs with unified overpotentials. The Cu2O layers obtained at pH <9.5 had the 〈100〉 preferential orientation, whereas the orientation changed to the 〈111〉 preferential orientation at pH >9.5. In addition, marked differences were observed in the resistivity and carrier density of Cu2O layers bordering pH 9.5, indicating the presence of a strong relationship between copper(II)-lactate complexes and these crystallographic or electrical properties. In terms of the cathodic reactivity of copper(II)-lactate complexes and changes in local pH in the vicinity of the cathode upon electrodeposition, we suggest that the two copper(II)-lactate complexes directly affected the electrical properties of Cu2O and indirectly affected its crystallographic orientation.

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