Add to ORKGThe electric field strength in the passivating oxide layer, in terms of which ion-transfer coefficients are expressed, is calculated. Conditions of the electric field conjugation at the interfaces, which are necessary for the analysis of the passivating layer structure stability, are formulated
The bipolar faradaic depolarization of the interface metal/solution is examined for the situation in...
350-360The dissolution of a metal occurs with the transfer of one or more electrons. The dissolutio...
Trabalho apresentado no 10th International Symposium on Electrochemical impedance Spectroscopy, 19-2...
The electric field strength in the passivating oxide layer, in terms of which ion-transfer coefficie...
A model of processes at the interface between an electrolyte and a passivating oxide layer on a meta...
A model of processes at the interface between an electrolyte and a passivating oxide layer on a meta...
The electrocapillary stability of passive films on metals has been studied in terms of energetics. I...
A unified mechanism of passivity based on the behavior of local ele-ments in metal surfaces is devel...
A theoretical model of the nucleation of a passivating salt layer on the surface S of an anode-disso...
A theoretical model of the nucleation of a passivating salt layer on the surface S of an anode-disso...
It has been determined that two basic factors influence on the electrical resistance value of the fi...
A quantitative theory is presented for the bipolar behavior of conducting planar surfaces in a thin-...
A quantitative theory is presented for the bipolar behavior of conducting planar surfaces in a thin-...
The dissolution of a metal occurs with the transfer of one or more electrons. The dissolution depend...
The passivity model of K. Vetter is further developed. An equation for the interface potential at a ...
The bipolar faradaic depolarization of the interface metal/solution is examined for the situation in...
350-360The dissolution of a metal occurs with the transfer of one or more electrons. The dissolutio...
Trabalho apresentado no 10th International Symposium on Electrochemical impedance Spectroscopy, 19-2...
The electric field strength in the passivating oxide layer, in terms of which ion-transfer coefficie...
A model of processes at the interface between an electrolyte and a passivating oxide layer on a meta...
A model of processes at the interface between an electrolyte and a passivating oxide layer on a meta...
The electrocapillary stability of passive films on metals has been studied in terms of energetics. I...
A unified mechanism of passivity based on the behavior of local ele-ments in metal surfaces is devel...
A theoretical model of the nucleation of a passivating salt layer on the surface S of an anode-disso...
A theoretical model of the nucleation of a passivating salt layer on the surface S of an anode-disso...
It has been determined that two basic factors influence on the electrical resistance value of the fi...
A quantitative theory is presented for the bipolar behavior of conducting planar surfaces in a thin-...
A quantitative theory is presented for the bipolar behavior of conducting planar surfaces in a thin-...
The dissolution of a metal occurs with the transfer of one or more electrons. The dissolution depend...
The passivity model of K. Vetter is further developed. An equation for the interface potential at a ...
The bipolar faradaic depolarization of the interface metal/solution is examined for the situation in...
350-360The dissolution of a metal occurs with the transfer of one or more electrons. The dissolutio...
Trabalho apresentado no 10th International Symposium on Electrochemical impedance Spectroscopy, 19-2...