The fungi associated with termites secrete enzymes such as laccase (multi-copper oxidase)
that can degrade extracellular wood matrix. Laccase uses molecular oxygen as an electron …

White rot fungi (WRF) are planted on the cathode of a ceramic microbial fuel cell (C-MFC) to
enhance its removal of copper from wastewater. When P. eryngii was planted in the air …

Wood-degrading white-rot fungi produce many extracellular enzymes, including the multi-
copper oxidative enzyme laccase (EC 1.10. 3.2). Laccase uses atmospheric oxygen as the …

White-rot fungus is able to secrete laccase, which can reduce O2 to H2O and has been
widely used in enzymatic fuel cells. In this work, a strain of white-rot fungus, Coriolus …

In the present work, we isolated and identified Aspergillus sydowii NYKA 510 as the most
potent laccase producer. Its medium constituents were optimized to produce the highest …

The present work describes a self-sustaining bioelectrochemical system that adopts simple
cell configurations and operates in uncontrolled ambient surroundings. The microbial fuel …

A microbial fuel cell (MFC) cathode was developed by immobilizing the enzyme, laccase, in
polymer matrix (Nafion) on carbon paper together with carbon nanoparticles and a redox …

A novel carbon-fiber-brush air cathode microbial fuel cell (MFC) with low-cost mushroom
Ganoderma laccase enzyme was used to treat molasses wastewater. Experimental results …

A hybrid lactate/air biofuel cell has been created using a microbial anode with Shewanella
MR1 integrated into a chitosan–carbon nanotube porous matrix and a DET-based laccase …

Microbial fuel cell has been extensively used for electricity generation. A dual chambered
microbial fuel cell was designed to degrade wheat straw by white rot fungi, Phlebia …