A new fuel cell electrolyte design using phosphonic acid polymers with hydrocarbon spacers allows efficient operation under ...

A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell ...

Trillions of bacteria work in the chemical and pharmaceutical industries, helping produce everything from beer and facial ...

Scientists have innovated a polymer-coated bacterium that enhances its catalytic efficiency and sustainability in industrial ...

E. coli with engineered cell membranes have enhanced catalysis capabilities which reduce energy use and make production more sustainable.

A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell electrolytes, utilizing a ...

Motivated by elegant biological helical structures, considerable effort has been devoted to developing artificial helical ...

Nimbus Power Systems, Inc., a pioneering developer of advanced fuel cell technologies for heavy-duty vehicles, today announced the successful completi ...

Helical structures are ubiquitous across biology, from the double-stranded helix of DNA to how heart muscle cells spiral in a band. Inspired by this twisty ladder, researchers have developed an ...

Microscopes traditionally resolve only the thin layer of cellular activity within a narrow focal plane. Now scientists have ...