Researchers at Nagoya University developed a phosphonic acid polymer with hydrophobic spacers for fuel cell electrolytes, ...

Furthermore, such modeling helps elucidate the occurrence and propagation of phenomena like cavitation—the formation of air ...

Lebanon’s Water Resources Salinity Crisis. Journal of Geoscience and Environment Protection, 12, 98-111. doi: ...

This study presents poly(4-(p-styryl)-1-butanephosphonic acid) (sbPA) membranes as a stable, high-performance alternative for ...

With their unique combination of high water content, tissue-like modulus and ionic conductivity these hydrogels provide an ...

To overcome these challenges, a research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design ...

A research group has developed a new design for the electrolytes used in fuel cells. The material complies with environmental regulations and demonstrates moderate conductivity in harsh conditions, ...

With water management and regulation practices coming under scrutiny, here are real-world solutions to consider.

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

Carbon pollution from human activities is making ocean water corrosive. This harms marine life. Our new scientific tool helps ...

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

In relation to water, the capacity of the water to transmit a flow of electricity and is a common measure of the salinity of the water.