Bacterial biofilms are complex surface attached communities of bacteria held together by
self-produced polymer matrixs mainly composed of polysaccharides, secreted proteins, and …

Bioelectrocatalysis is an interdisciplinary research field combining biocatalysis and
electrocatalysis via the utilization of materials derived from biological systems as catalysts to …

The development in urbanization, growth in industrialization and deficiency in crude oil
wealth has made to focus more for the renewable and also sustainable spotless energy …

Heavy metal pollution generated by urban and industrial activities has become a major
global concern due to its high toxicity, minimal biodegradability, and persistence in the food …

Burgeoning industrialization has escalated the energy demand and amplified the insistence
on depleting petroleum-based reservoirs. Subsequently, this has imposed a study to …

Formation of electrogenic microbial biofilm on the electrode is critical for harvesting electrical
power from wastewater in microbial biofuel cells (MFCs). Although the knowledge of …

Over the last two decades, scientific communities have been more interested in turning
organic waste materials into bioenergy. Microbial fuel cells (MFC) can degrade organic …

Electroactive microorganisms can exchange electrons with other cells or conductive
interfaces in their extracellular environment. This property opens the way to a broad range of …

Electroactive microorganisms, which possess extracellular electron transfer (EET)
capabilities, are the basis of microbial electrochemical technologies (METs) such as …

Microbial electrocatalysis reckons on microbes as catalysts for reactions occurring at
electrodes. Microbial fuel cells and microbial electrolysis cells are well-known in this context; …