| 1 - 1 |
BIOCORYS 2007: International conference on biocorrosion of materials Foreword
Feron D |
| 2 - 7 |
The influence of marine biofilms on corrosion: A concise review
Little BJ, Lee JS, Ray RI |
| 8 - 13 |
Interactions between steels and sulphide-producing bacteria-Corrosion of carbon steels and low-alloy steels in natural seawater
Malard E, Kervadec D, Gil O, Lefevre Y, Malard S |
| 14 - 21 |
Accelerated low water corrosion of carbon steel in the presence of a biofilm harbouring sulphate-reducing and sulphur-oxidising bacteria recovered from a marine sediment
Beech IB, Campbell SA |
| 22 - 28 |
Corrosion of carbon steel influenced by anaerobic biofilm in natural seawater
Duan JZ, Wu SR, Zhang XJ, Huang GQ, Du M, Hou BR |
| 29 - 34 |
Electroactive biofilms of sulphate reducing bacteria
Cordas CM, Guerra LT, Xavier C, Moura JJG |
| 35 - 40 |
Pit formation on stainless steel surfaces pre-treated with biosurfactants produced by Pseudomonas fluorescens
Dagbert C, Meylheuc T, Bellon-Fontaine MN |
| 41 - 46 |
Monitoring of electro-active biofilm in soil
Cristiani P, Franzetti A, Bestetti G |
| 47 - 52 |
The bacterial battery and the effect of different exposure conditions on biofilm properties
Kus E, Nealson K, Mansfeld F |
| 53 - 59 |
Comparison of the microbiological influence on the electro-chemical potential of stainless steel between macro- and micro-areas of specimens
Moos O, Gumpel P |
| 60 - 65 |
Local analysis of oxygen reduction catalysis by scanning vibrating electrode technique: A new approach to the study of biocorrosion
Iken H, Etcheverry L, Bergel A, Basseguy R |
| 66 - 73 |
In situ detection and characterization of potable water biofilms on materials by microscopic, spectroscopic and electrochemistry methods
Gamby J, Pailleret A, Clodic CB, Pradier CM, Tribollet B |
| 74 - 79 |
Biocorrosion of stainless steel grade 304L (SS304L) in sugar cane juice
Durmoo S, Richard C, Beranger G, Moutia Y |
| 80 - 85 |
The critical involvement of anaerobic bacterial activity in modelling the corrosion behaviour of mild steel in marine environments
Melchers R, Jeffrey R |
| 86 - 90 |
The influence of Desulfovibrio vulgaris on the efficiency of imidazoline as a corrosion inhibitor on low-carbon steel in seawater
Gonzalez-Rodriguez CA, Rodriguez-Gomez FJ, Genesca-Llongueras J |
| 91 - 99 |
First evaluation of the applicability of microbial extracellular polymeric substances for corrosion protection of metal substrates
Stadler R, Fuerbeth W, Harneit K, Grooters M, Woellbrink M, Sand W |
| 100 - 107 |
Effect of chlorination on the corrosion of Cu/Ni 70/30 condenser tubing
Cristiani P, Perboni G, Debenedetti A |
| 108 - 115 |
Bacterial inhibiting surfaces caused by the effects of silver release and/or electrical field
Chiang WC, Hilbert LR, Schroll C, Tolker-Nielsen T, Moller P |
| 116 - 122 |
Enzymes at solid surfaces: Nature of the interfaces and physico-chemical processes
Caillou S, Gerin PA, Nonckreman CJ, Fleith S, Dupont-Gillain CC, Landoulsi J, Pancera SM, Genet MJ, Rouxhet PG |
| 123 - 132 |
Chemical composition and electronic structure of the passive layer formed on stainless steels in a glucose-oxidase solution
Marconnet C, Wouters Y, Miserque F, Dagbert C, Petit JP, Galerie A, Feron D |
| 133 - 139 |
Glucose oxidase immobilization on stainless steel to mimic the aerobic activities of natural biofilms
Landoulsi J, El Kirat K, Richard C, Sabot R, Jeannin M, Pulvin S |
| 140 - 147 |
New hypotheses for hydrogenase implication in the corrosion of mild steel
Mehanna M, Basseguy R, Delia ML, Girbal L, Demuez M, Bergel A |
| 148 - 153 |
Evolution of oxygen reduction current and biofilm on stainless steels cathodically polarised in natural aerated seawater
Faimali M, Chelossi E, Garaventa F, Corra C, Greco G, Mollica A |
