Biofouling and microbially influenced corrosion, Int. Biodeterior. Biodegrad, vol.29, pp.90044-90044, 1992. ,
Understanding microbial inhibition of corrosion. A comprehensive overview, Int. Biodeterior. Biodegrad, vol.63, pp.896-900, 2009. ,
Kinetics of Corrosion Layer Formation. Part 2-lron Sulfide and Mixed Iron SulfidejCarbonate Layers in Carbon DioxidejHydrogen Sulfide Corrosion, Corrosion, vol.64, pp.586-599, 2008. ,
Iron sulphides: Corrosion products on artifacts from waterlogged deposits, Met. 98 Conf. Met. Conserv., James and James, 1998. ,
, Evaluation of the feasibility of a geological repository in an argillaceous formation, ANDRA, 2005.
Microbiologically influenced corrosion process of archaeological iron nails from the sixteenth century, Corros. Eng. Sei. Technol, vol.45, pp.388-394, 2010. ,
Sulfur-Related Conservation Concerns for Marine Archaeological Wood, 2008. ,
Iron corrosion in an anoxie soil: Comparison between thermodynamic modelling and ferrous archaeological artefacts characterised along with the local in situ geochemical conditions, Appl. Geochem, vol.25, pp.1937-1948, 2010. ,
Rôle des espèces sulfures dans la corrosion des aciers non alliés: Hétérogénéités de la couche de produits de corrosion et couplages galvaniques, 2014. ,
Large Sulfur Isotope Fractionation Does Not Require Disproportionation, Science, vol.333, pp.74-77, 2011. ,
Sulfur isotope fractionation by sulfate-reducing bacteria in corrosion products, Biofouling, issue.6, pp.279-288, 1993. ,
Corrosion of carbon steel in the Callovo-Oxfordian claystone in the context of the French nuclear waste repository 1 (in project) 1. Experimental set up and corrosion behaviour, 2014. ,
Intéractions ferjargile en conditions de sotckage géologique profond -Impacts d'activités bactériennes et d'hétérogénéités, Ecole nationale supérieure des mines de Paris, 2013. ,