| 1 - 6 |
Investigation of surface diffusion and recombination reaction kinetics of H-adatoms in the process of the hydrogen evolution reaction (her) at Au electrodes
Su L, Wu BL |
| 7 - 19 |
On-line electrochemical-mass spectrometry study of the mechanism of oxidation of N,N-dimethyl-p-phenylenediamine in aqueous electrolytes
Modestov AD, Gun J, Savotine I, Lev O |
| 21 - 28 |
The electrochemical characteristics of blue copper protein monolayers on gold
Andolfi L, Bruce D, Cannistraro S, Canters GW, Davis JJ, Hill HAO, Crozier J, Verbeet MP, Wrathmell CL, Astier Y |
| 29 - 35 |
Investigation of potential inversion in the reduction of 9,10-dinitroanthracene and 3,6-dinitrodurene
Kraiya C, Evans DH |
| 37 - 48 |
Pseudopolarography of trace metals. Part II. The comparison of the reversible, quasireversible and irreversible electrode reactions
Omanovic D, Branica M |
| 49 - 56 |
Zinc electrowinning from acidic sulphate solutions - Part IV: effects of perfluorocarboxylic acids
Tripathy BC, Das SC, Singh P, Hefter GT, Misra VN |
| 57 - 64 |
Mechanism of electropolymerization of phenylacetylene in propylene carbonate
Garcia-Canadas J, Lafuente A, Rodriguez G, Marcos ML, Velasco JG |
| 65 - 75 |
Hydrovoltaic cells. Part II: Thermogalvanic cells and numerical simulations of thermal diffusion potentials
Josserand J, Devaud V, Lagger G, Jensen H, Girault HH |
| 77 - 83 |
Electrochemical and spectroscopic analysis of the interaction of molybdenocene dichloride with nitrogen bases
Lopez-Ramos V, Vega CA, Cadiz M, Melendez E |
| 85 - 94 |
EIS study of solid-state transformations in the passivation process of bismuth in sulfide solution
Grubac Z, Metikos-Hukovic M |
| 95 - 101 |
Electrocatalytic oxidation of penicillamine at a carbon paste electrode modified with cobalt salophen
Shahrokhian S, Souri A, Khajehsharifi H |
| 103 - 114 |
The electrical double layer in a nanopore in a barrier surface film
Huang RC, Hebert KR |
| 115 - 120 |
Iron(III) octaethylporphyrin chloride supported on glassy carbon as an electrocatalyst for oxygen reduction
Khorasani-Motlagh M, Noroozifar M, Ghaemi A, Safari N |
| 121 - 129 |
A fractal analysis of colloidal Au nanoparticle electrodes
McEvoy TM, Pena DJ, Musick MD, Richardson JN |
| 131 - 131 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 5. A finite-difference, adaptive space/time grid strategy based on a patch-type local uniform spatial grid refinement, for kinetic models in one-dimensional space geometry (vol 481, pg 115, 2000)
Bieniasz LK |
| 133 - 133 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 6. Testing of the finite-difference patch-adaptive strategy on example models with solution difficulties at the electrodes, in one-dimensional space geometry (vol 481, pg 134, 2000)
Bieniasz LK |
| 135 - 135 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 7. Testing of the finite-difference patch-adaptive strategy on example kinetic models with moving reaction fronts, in one-dimensional space geometry
Bieniasz LK, Bureau C |
| 137 - 137 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 10. Extension of the patch-adaptive strategy to kinetic models involving spatially localised unknowns at the boundaries, multiple space intervals, and non-local boundary conditions, in one-dimensional space geometry (vol 527, pg 1, 2002)
Bieniasz LK |
| 139 - 139 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 11. Patch-adaptive simulation of example transient experiments described by kinetic models involving simultaneously distributed and localised unknowns, in one-dimensional space geometry (vol 527, pg 11, 2002)
Bieniasz LK |
| 141 - 141 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 12. Patch-adaptive simulation of example transient experiments described by kinetic models defined over multiple space intervals in one-dimensional space geometry (vol 527, pg 21, 2002)
Bieniasz LK |
| 143 - 143 |
Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations. Part 13. Patch-adaptive simulation of wave propagation along ring electrodes: one-dimensional approximation (vol 529, pg 51, 2002)
Bieniasz LK |
