Electrotrophy, the growth of microbes on extracellular electron donors, drives important
biogeochemical cycles and has practical applications. Studies of Fe (II)-based electrotrophy …

Microbial protein nanowires are emerging as an alternative to abiotic nanowires for
electronics applications. Microbial nanowires are sustainably produced, robust, non-toxic …

Electrobiocorrosion, the process in which microbes extract electrons from metallic iron (Fe0)
through direct Fe0‐microbe electrical connections, is thought to contribute to the costly …

Extracellular cytochrome filaments are proposed to serve as conduits for long-range
extracellular electron transfer. The primary functional physiological evidence has been the …

There is a debate whether Geobacter sulfurreducens produces electrically conductive pili (e-
pili) from its pilin monomer, PilA, a protein encoded by gene GSU 1496. G. sulfurreducens …

The depletion of fossil fuels and the energy crisis have triggered worldwide interest in
renewable energy. Microbial fuel cell (MFC) is a green technology that can utilize organic …

The sulfate-reducing microbe Desulfovibrio ferrophilus is of interest due to its relatively rare
ability to also grow with Fe (III) oxide as an electron acceptor and its rapid corrosion of …

The physiological role of Geobacter sulfurreducens extracellular cytochrome filaments is a
matter of debate and the development of proposed electronic device applications of …

The assembly of peptide and peptide‐inspired building blocks into functional, well‐defined,
multi‐length scale materials represents an exciting, rapidly expanding research field that …

Микробная энергия-одно из перспективных направлений инновационных разработок в
области био-и нанотехнологий. Результаты многочисленных исследований последних …