Electrical conductivity measurements of bacterial nanowires from Pseudomonas aeruginosa
M Maruthupandy, M Anand… - Advances in Natural …, 2015 - iopscience.iop.org
The extracellular appendages of bacteria (flagella) that transfer electrons to electrodes are
called bacterial nanowires. This study focuses on the isolation and separation of nanowires …
called bacterial nanowires. This study focuses on the isolation and separation of nanowires …
Bacterial nanowires: conductive as silicon, soft as polymer
It was recently discovered that Shewanella oneidensis MR-1, a dissimilatory metal-reducing
bacterium, can grow electrically conductive extracellular appendages. Such bacterial …
bacterium, can grow electrically conductive extracellular appendages. Such bacterial …
Bacterial nanowires: electrically conductive filaments and their implications for energy transformation and distribution in natural and engineered systems
YA Gorby - 2006 Bio Micro and Nanosystems Conference, 2006 - ieeexplore.ieee.org
Bacteria, ranging from oxygenic photosynthetic cyanobacteria to heterotrophic sulfate
reducing bacteria, produce electrically-conductive appendages referred to as bacterial …
reducing bacteria, produce electrically-conductive appendages referred to as bacterial …
Microbial nanowires: a new paradigm for biological electron transfer and bioelectronics
NS Malvankar, DR Lovley - ChemSusChem, 2012 - Wiley Online Library
The discovery that Geobacter sulfurreducens can produce protein filaments with metallic‐
like conductivity, known as microbial nanowires, that facilitate long‐range electron transport …
like conductivity, known as microbial nanowires, that facilitate long‐range electron transport …
Protein nanowires: the electrification of the microbial world and maybe our own
Electrically conductive protein nanowires appear to be widespread in the microbial world
and are a revolutionary “green” material for the fabrication of electronic devices. Electrically …
and are a revolutionary “green” material for the fabrication of electronic devices. Electrically …
Shewanella oneidensis MR-1 Bacterial Nanowires Exhibit p-Type, Tunable Electronic Behavior
The study of electrical transport in biomolecular materials is critical to our fundamental
understanding of physiology and to the development of practical bioelectronics applications …
understanding of physiology and to the development of practical bioelectronics applications …
The molecular density of states in bacterial nanowires
The recent discovery of electrically conductive bacterial appendages has significant
physiological, ecological, and biotechnological implications, but the mechanism of electron …
physiological, ecological, and biotechnological implications, but the mechanism of electron …
Microbial nanowires for bioenergy applications
NS Malvankar, DR Lovley - Current Opinion in Biotechnology, 2014 - Elsevier
Highlights•Metal-like conductivity of nanowires is a novel concept in bio-electron
transport.•Microbial nanowires play a role in multiple forms of extracellular electron …
transport.•Microbial nanowires play a role in multiple forms of extracellular electron …
Microbial nanowires
DR Lovley - Current Biology, 2022 - cell.com
Microbial nanowires are electrically conductive extracellular appendages with nanometer
diameters that transport electrons over micrometer distances. The term was first used to …
diameters that transport electrons over micrometer distances. The term was first used to …
[HTML][HTML] Aeromonas hydrophila produces conductive nanowires
Aeromonas hydrophila is a facultative anaerobe which, under conditions of oxygen
depletion, uses Fe (III) as electron acceptor. A. hydrophila produces pili during growth with …
depletion, uses Fe (III) as electron acceptor. A. hydrophila produces pili during growth with …