| 203 - 203 |
Tribute to Michel Keddam
Gabrielli C, Peter L |
| 205 - 210 |
Determination of diffusion coefficient of hydrogen in metals and their elastic modulus by generalised impedance
Zoltowski P, Legawiec B |
| 211 - 223 |
Conduction mechanism in oxide films on ferrous alloys studied by impedance spectroscopy in symmetrical and asymmetrical configurations
Betova I, Bojinov M, Kinnunen P, Makela K, Saario T |
| 225 - 234 |
Mechanism for protection of iron corrosion by an intrinsically electronic conducting polymer
Nguyen TD, Nguyen TA, Pham MC, Piro B, Normand B, Takenouti H |
| 235 - 247 |
Analysis of an impedance function of zinc anodic dissolution
Gimenez-Romero D, Garcia-Jareno JJ, Vicente F |
| 249 - 255 |
Photoelectrochemical behaviour of a dye-grafted nanocrystalline SnO2 powder
Cachet H, Vivier V, Toupance T |
| 257 - 265 |
Steady-state and impedance investigations of anodic dissolution of p-Ge in alkali
Cattarin S, Musiani M |
| 267 - 281 |
Study of the forced Ni|1 M H2SO4 oscillator
Berthier F, Diard JP, Le Gorrec B, Montella C |
| 283 - 297 |
Analysis of the impedance spectra of Pt|poly(o-phenylenediamine) electrodes - hydrogen adsorption and the brush model of the polymer films
Lang GG, Ujvari M, Inzelt G |
| 299 - 307 |
Spatially limited diffusion coupled with ohmic potential drop and/or slow interfacial exchange: a new method to determine the diffusion time constant and external resistance from potential step (PITT) experiments
Vorotyntsev MA, Levi MD, Aurbach D |
| 309 - 316 |
EIS study of the redox reaction of Fe(CN)(6)(3-/4-) poly(3,4-ethylenedioxythiophene) electrodes: influence of dc potential and c(Ox): c(Red) ratio
Sundfors F, Bobacka J |
| 317 - 327 |
A systematic approach toward error structure identification for impedance spectroscopy
Orazem ME |
| 329 - 333 |
Electrochemiluminescence impedance of perylene in acetonitrile
Itagaki M, Kobari N, Watanabe K |
| 335 - 345 |
High frequency impedance spectroscopy study of passive films formed on AISI 316 stainless steel in alkaline medium
Abreu CM, Cristobal MJ, Losada R, Novoa XR, Pena G, Perez MC |
| 347 - 354 |
The corrosion of dental amalgam in artificial salivas: an electrochemical impedance study
Brett CMA, Trandafir F |
| 355 - 366 |
Impedance of porous Au based electrodes
Jurczakowski R, Hitz C, Lasia A |
| 367 - 375 |
Mechanism of copper deposition in a sulphate bath containing chlorides
Gabrielli C, Mocoteguy P, Perrot H, Wiart R |
| 377 - 387 |
Secondary differential impedance analysis - a tool for recognition of CPE behavior
Vladikova D, Stoynov Z |
| 389 - 398 |
Recent developments in the electro-hydrodynamic (EHD) impedance technique
Deslouis C, Tribollet B |
| 399 - 408 |
Reduction of silver complexes: towards an ever more elaborated insight in the influence of the type of ligand on the reaction rate
Hubin A, Simons W, Pauwels L, Vereecken J |
| 409 - 419 |
An electrochemical impedance study of Alloy 22 in NaCl brine at elevated temperature. I. Corrosion behavior
Priyantha N, Jayaweera P, Macdonald DD, Sun A |
| 421 - 431 |
An electrochemical impedance study of alloy-22 in NaCl brine at elevated temperature: II. Reaction mechanism analysis
Macdonald DD, Sun A, Priyantha N, Jayaweera P |
| 433 - 440 |
Molybdate conversion coatings on zinc surfaces
Magalhaes AAO, Margarit ICP, Mattos OR |
