Add to ORKGThe growth and properties of the passive films on iron in EDTA (ethylene diamine tetra-acetic acid, disodium salt)-containing borate buffer solution of pH = 8.15 were investigated using in-situ Spectroscopic Ellipsometry (SE), Mott-Schottky analysis, and X-ray photoelectron spectroscopy (XPS). EDTA effective-ly suppressed the formation of the outer layer of the passive film, thereby rendering the barrier layer amenable to direct ex-amination. It was shown that the barrier layer growth was completed in about 10 s upon stepping the potential in the an-odic direction. Contrariwise, thinning of the barrier oxide layer upon stepping the potential in the cathodic direction occurred at a rate that was two orders in magnitude lower than the growth ...
In-situ Raman spectra of the passive oxide film in neutral borate solution at pH 8.4 was measured wi...
The potent ia l dependence of the passive film formed on iron in borate buffer is examined by Mbssba...
The oxide films formed on AISI 316L(NG) in the temperature range 150-300°C in a simulated light wate...
A combined electrochemical and surface analytical study of iron oxidation, passive film formation an...
The electrochemical behavior of passive Fe and thin, sputter-deposited films of Fe{sub 2}O{sub 3} wa...
The semiconductive properties of the passive film formed on iron were investigated by measuring the ...
Hydrogen interaction with oxide films grown on iron electrodes at open circuit potential (E-oc) and ...
The passive film anodically formed on iron in 0.1 mol l−1 sodium borate solution has been evaluated ...
The passivity of iron in borate buffer solutions and its breakdown in presence of sulfide ions was s...
The photoelectrochemical behavior and the susceptibility of iron to pitting in borate buffer contain...
Passive films formed on carbon steel by different passivation potentials in borate buffer solution a...
The composition of the oxide film formed on iron during potentiodynamic experiments as well as the f...
The nature of passive film grown on the bulk surface of Fe-20Cr alloy in a pH 8.4 boric-borate buffe...
The electrochemical behavior of iron in neutral solutions of perchlorate and low borate concentratio...
The nature of the passive film grown on iron in a pH 8.4 borate buffer at a high potential [+0.4 V (...
In-situ Raman spectra of the passive oxide film in neutral borate solution at pH 8.4 was measured wi...
The potent ia l dependence of the passive film formed on iron in borate buffer is examined by Mbssba...
The oxide films formed on AISI 316L(NG) in the temperature range 150-300°C in a simulated light wate...
A combined electrochemical and surface analytical study of iron oxidation, passive film formation an...
The electrochemical behavior of passive Fe and thin, sputter-deposited films of Fe{sub 2}O{sub 3} wa...
The semiconductive properties of the passive film formed on iron were investigated by measuring the ...
Hydrogen interaction with oxide films grown on iron electrodes at open circuit potential (E-oc) and ...
The passive film anodically formed on iron in 0.1 mol l−1 sodium borate solution has been evaluated ...
The passivity of iron in borate buffer solutions and its breakdown in presence of sulfide ions was s...
The photoelectrochemical behavior and the susceptibility of iron to pitting in borate buffer contain...
Passive films formed on carbon steel by different passivation potentials in borate buffer solution a...
The composition of the oxide film formed on iron during potentiodynamic experiments as well as the f...
The nature of passive film grown on the bulk surface of Fe-20Cr alloy in a pH 8.4 boric-borate buffe...
The electrochemical behavior of iron in neutral solutions of perchlorate and low borate concentratio...
The nature of the passive film grown on iron in a pH 8.4 borate buffer at a high potential [+0.4 V (...
In-situ Raman spectra of the passive oxide film in neutral borate solution at pH 8.4 was measured wi...
The potent ia l dependence of the passive film formed on iron in borate buffer is examined by Mbssba...
The oxide films formed on AISI 316L(NG) in the temperature range 150-300°C in a simulated light wate...