TY - GEN
T1 - PROPERTIES OF THE PASSIVE FILM ON IRON ELECTRODES BY CAPACITY AND PHOTOCURRENT MEASUREMENTS.
AU - Stimming, Ulrich
PY - 1983
Y1 - 1983
N2 - Passive iron electrodes were investigated in 1M HClO//4, 1M NaClO//4-pH 8 and 1M NaOH covering a pH range of almost 14 units. Capacity measurements were carried out in the frequency range ca. 3 Hz-3 kHz. Applying a Schottky-Mott analysis to the results yields donor concentrations on the order of 10**2**0cm** minus **3. At higher potentials, however, a frequency dependent capacity encountered is probably due to OH** minus adsorption. Photocurrent spectra measured in all electrolytes yielded a similar shape of the spectrum. The onset of the photocurrent was between 2. 0 and 2. 5 eV photon energy depending on the electrolyte the passive film was formed in. Photocurrents have a pronounced transient like behaviour in neutral and basic solutions. The potential dependence of the photocurrent shows an exponential increase with additional peaks at low potentials in neutral and basic solutions after prolonged polarization of the electrode. (Edited author abstract. )
AB - Passive iron electrodes were investigated in 1M HClO//4, 1M NaClO//4-pH 8 and 1M NaOH covering a pH range of almost 14 units. Capacity measurements were carried out in the frequency range ca. 3 Hz-3 kHz. Applying a Schottky-Mott analysis to the results yields donor concentrations on the order of 10**2**0cm** minus **3. At higher potentials, however, a frequency dependent capacity encountered is probably due to OH** minus adsorption. Photocurrent spectra measured in all electrolytes yielded a similar shape of the spectrum. The onset of the photocurrent was between 2. 0 and 2. 5 eV photon energy depending on the electrolyte the passive film was formed in. Photocurrents have a pronounced transient like behaviour in neutral and basic solutions. The potential dependence of the photocurrent shows an exponential increase with additional peaks at low potentials in neutral and basic solutions after prolonged polarization of the electrode. (Edited author abstract. )
UR - http://www.scopus.com/inward/record.url?scp=0021002908&partnerID=8YFLogxK
U2 - 10.1016/b978-0-444-42252-1.50076-x
DO - 10.1016/b978-0-444-42252-1.50076-x
M3 - Conference contribution
AN - SCOPUS:0021002908
SN - 0444422528
SN - 9780444422521
T3 - Thin Films Science and Technology
SP - 477
EP - 482
BT - Thin Films Science and Technology
PB - Elsevier
ER -