abstract 28 Microbial electrochemical technologies are emerging as environmentally friendly
biotechnological pro-29 cesses. Recently, a thermophilic Gram-positive bacterium capable …

Microbial electrochemical technologies are emerging as environmentally friendly
biotechnological processes. Recently, a thermophilic Gram-positive bacterium capable of …

Bioelectrochemical systems (BES) are emerging as a suite of versatile sustainable
technologies to produce electricity and added-value compounds from renewable and …

Extracellular electron transfer pathways allow bacteria to transfer electrons from the cell
metabolism to extracellular substrates, such as metal oxides in natural environments and …

Natural microbes employing c‐type cytochromes (c‐Cyts) for extracellular electron transport
(EET) were greatly valuable to develop redox‐based bioelectrochemical applications …

The demand for energy and the limited supply of fossil fuels and their impact in the
environment have required the development of alternative energy sources. Among the next …

Over the past 100 years the Earths climate has warmed approximately 1.7 ºC and recent
studies forecast a temperature rise of 0.9 ºC to 5.6 ºC over the next century1. This gradual …

Geobacter bacteria have been inspiring the development of many biotechnological
applications, particularly in the fields of bioenergy and bioremediation [1]. G …

Direct electron transfer between photosynthetic bacteria and electrode surface has been
pursued in the study of bioelectricity generation through a solar powered microbial fuel cell …

The development of microbial electrochemical technologies (METs) rests on the deep
knowledge of the extracellular electron transfer (EET) processes performed by electroactive …