Electrically conductive pili: biological function and potential applications in electronics
DR Lovley - Current Opinion in Electrochemistry, 2017 - Elsevier
Highlights•e-Pili enable unprecedented long-range biological electron transfer.•e-Pili are
electrical connectors for interspecies electron transfer and Fe (III) oxide reduction.•Aromatic …
electrical connectors for interspecies electron transfer and Fe (III) oxide reduction.•Aromatic …
Electroactive biofilms for sensing: reflections and perspectives
A Prévoteau, K Rabaey - ACS sensors, 2017 - ACS Publications
Microbial electrochemistry has from the onset been recognized for its sensing potential due
to the microbial ability to enhance signals through metabolic cascades, its relative selectivity …
to the microbial ability to enhance signals through metabolic cascades, its relative selectivity …
Modification of clayware ceramic membrane for enhancing the performance of microbial fuel cell
The aim of this study was to develop an economically viable clayware ceramic membrane
that exhibits proton mass transfer comparable to the commercially available membrane …
that exhibits proton mass transfer comparable to the commercially available membrane …
Inducing the attachment of cable bacteria on oxidizing electrodes
C Li, CE Reimers, Y Alleau - Biogeosciences, 2020 - bg.copernicus.org
Cable bacteria (CB) are multicellular, filamentous bacteria within the family of
Desulfobulbaceae that transfer electrons longitudinally from cell to cell to couple sulfide …
Desulfobulbaceae that transfer electrons longitudinally from cell to cell to couple sulfide …
[PDF][PDF] Microbial Fuel Cells For Energy Production and Wastewater Treatment
RM de Andrade Correia - 2020 - repositorio-aberto.up.pt
Climate emergency awareness compromised an energy transition all around the world.
Search for new and clean technologies is now a reality and a microbial fuel cell (MFC) …
Search for new and clean technologies is now a reality and a microbial fuel cell (MFC) …
Monitoring Electron Transfer Rates of Electrode-Respiring Cells
The goals of this study are 1) to quantify the in-situ single cell electron transfer rates on an
electrode surface when the electrode was the electron acceptor and 2) to quantify open …
electrode surface when the electrode was the electron acceptor and 2) to quantify open …