Despite increasing interest in corrosion caused by direct electron transfer (DET) from steel
surfaces to microbial cells, the validity of this mechanism is debated. This is often because of …

Shewanella species are frequently selected as model strains to investigate microbially
influenced steel corrosion. This selection is due to their relevance for corrosion, but also …

Shewanella oneidensis MR-1 is an attractive model microbe for elucidating the biofilm-metal
interactions that contribute to the billions of dollars in corrosion damage to industrial …

Microbially induced corrosion (MIC) is a complex problem that affects various industries.
Several techniques have been developed to monitor corrosion and elucidate corrosion …

Despite observations of steel corrosion in nitrate-reducing environments, processes of
nitrate-dependent microbially influenced corrosion (MIC) remain poorly understood and …

The involvement of Shewanella spp. in biocorrosion is often attributed to their Fe (III)-
reducing properties, but they could also affect corrosion by using metallic iron as an electron …

Anaerobic microbial corrosion of iron‐containing metals causes extensive economic
damage. Some microbes are capable of direct metal‐to‐microbe electron transfer …

The microbiologically influenced corrosion of 201 stainless steel by Shewanella algae was
investigated via modulating the concentration of fumarate (electron acceptor) in the medium …

In the absence of oxygen, a protective H2 film is formed around an Fe (0) surface, inhibiting
the electron flow from this surface. Our study of anoxic corrosion of Fe (0) beads revealed …

Microbial corrosion of iron-based materials is a substantial economic problem. A
mechanistic understanding is required to develop mitigation strategies, but previous …