In this paper, we first systematically investigate the current output performance of stainless
steel electrodes (SS) modified by carbon coating (CC), polyaniline coating (PANI), neutral …

Stainless steel (SS) is regarded as an eligible anode material in microbial fuel cells (MFCs),
owing to its low cost and high mechanical strength. However, its poor biocompatibility and …

A living material was formed by self-assembly of bacterial cells (Shewanella oneidensis MR-
1 or Pseudomonas fluorescens) with carbon nanotubes in the presence of cytochrome c …

Stainless steel (SS) has been reported as a suitable electrode material for the growth of
electrochemically active biofilm whether it is for a microbial fuel cell (MFC) or microbial …

Abstract Development of bioelectrodes with multiple virtues, such as biocompatibility,
flexibility, versatility and cost-effectiveness, remains a huge area of research for multiple …

In the last years, microbial electrochemical technologies have received increasing attention
due to their promising environmental potential. However, the identification of the most …

Modification of electrode surfaces is a promising strategy to improve microbial fuel cell
(MFC) performance. Here we report a new functionalization process to improve interfacial …

The development of sustainable and green technologies for the treatment and recovery of
resources from wastes is driving a paradigm shift in waste management. Bioenergy …

Carbon black/stainless steel mesh (CB/SSM) composite electrodes were developed as high-
performance anodes of microbial fuel cell (MFC) by using a binder-free dipping/drying …

In non-sterile aqueous media, stainless steels (SS) may exhibit a non-stable behavior
resulting from interactions between microbial species and passive film. They can induce the …