Microbial electrolysis cell (MEC) is a significantly sustainable bio-electrochemical system for
biological hydrogen production. MEC is also regarded as an environmentally friendly …

Develo** sustainable hydrogen production by efficient conversion technologies is vital to
address environmental and energy challenges. Microbial electrolysis cells (MECs) can …

MFC research has been conducted enormously in the last decade, and their electrochemical
data has been accumulated enormously. Although reproducible measurement method and …

For accurate and reproducible MFC experiments, it is important to know when MFCs
produce stable cell performance. Herein, four replicate single-chamber MFCs were tested …

Activated carbon (AC) is an inexpensive catalyst for the oxygen reduction reaction in the air
cathode of microbial fuel cells (MFCs). However, since the electrochemical catalytic activity …

The microbial electrochemical technology is a foremost viable technology for hydrogen
production from organic matter or wastewater catalyzed by electroactive microorganisms …

Cobalt Iron-layered double hydroxide (CoFe-LDH) nano sheets were attached to Nickel-
metal organic frameworks (Ni-MOF) by utilizing hydrothermal reaction method, and CoFe …

Solid oxide fuel cells (SOFCs) are emerging as energy conversion devices for large-scale
electrical power generation because of their high energy conversion efficiency, excellent …

Petroleum industries are large water consumers and generate a lot of wastewater at various
stages of industrial operations. Wastewater from the petroleum industries contain recalcitrant …

Microplastics (MPs) provide habitats to microorganisms in aquatic environments; distinct
microbial niches have recently been elucidated. However, there is little known about the …