Catalytic four-electron reduction of O2 to water is one of the most extensively studied
electrochemical reactions due to O2 exceptional availability and high O2/H2O redox …

Global reduction of traditional fuel sources such as natural gases, coal, and petroleum has
led researchers to seek prominent and beneficial energy conversion devices. Fuel cells are …

The global problem of petroleum contamination in soils seriously threatens environmental
safety and human health. Current studies have successfully demonstrated the feasibility of …

The possibility of producing electrical power from chemical energy with biological catalysts
has induced the development of biofuel cells as viable energy sources for powering portable …

This feature article is an overview of the recent research activity in the area of enzyme-based
biofuel cells implanted and operating in vivo in living creatures (insects, mollusks, rats …

Bioelectrochemical systems (BESs), in which microorganisms are utilized as a self-
regenerable catalyst at the anode of an electrochemical cell to directly extract electrical …

Ever-growing demands for energy, the unsustainability of fossil fuel due to its scarcity and
massive impact on global economies and the environment, have encouraged the research …

We report the design of a novel glucose/O2 biofuel cell (GBFC) integrating carbon nanotube-
based 3D bioelectrodes and using naphthoquinone-mediated oxidation of glucose by …

The detection of phenolic compounds is relevant not only for their possible benefits to
human health but also for their role as chemical pollutants, including as endocrine …

We report an original setup using carbon nanotube matrices as supercapacitors where
redox enzymes serve for continuous charging of the capacitors. High currents can be …