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

Thin-film electrolyte membranes are key to optimizing solid oxide fuel cells, enhancing ionic conductivity and durability for ...

A new fuel cell electrolyte design using phosphonic acid polymers with hydrocarbon spacers allows efficient operation under high-temperature, low-humidity conditions.

Lipids, or fats, are essential to life. They form the membranes around cells, protecting them from the outside. In nature, ...

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

In a new Nature Communications study, scientists have developed a novel method for artificial cells to interact with their ...

Discover how a breakthrough in adipocyte mechanisms protects against tissue damage and paves the way for new metabolic ...

DAEJEON, Dec. 12 (Korea Bizwire) – South Korean researchers have developed a new messenger RNA (mRNA) treatment that can ...

Channels in plant cell walls, called plasmodesmata, provide molecules with a bridge to move between cells, an essential ...

THIS communication deals with a glucose effect on the permeability of cell membranes to sugar molecules as studied by the intensity of respiration when leaves of Artocarpus Integrifolia were ...

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

Bangham, A. D., Dingle, J. T., and Lucy, J. A. (to be published). Dingle, J. T., and Lucy, J. A., Biochem. J., 84, 611 (1962).