A number of advanced energy technologies—including fuel cells, electrolyzers, and an emerging class of low-power ...

MIT researchers have developed a method to predict how well materials can move protons in clean energy devices & other ...

Niigata, Japan - Researchers from the Graduate School of Science and Technology at Niigata University, Japan along with their collaborators from Tokyo University of Science (Japan), Yamagata ...

These novel strategies will assist in the development of perovskites for sustainable energy and catalysis technologies. In line with global efforts towards cleaner energy technologies, fuel cells may ...

Donor doping into a mother material with disordered intrinsic oxygen vacancies, instead of the widely used strategy of acceptor doping into a material without oxygen vacancies, can greatly enhance the ...

Metal-organic frameworks (MOFs) and coordination polymers have emerged as a versatile class of materials for achieving high proton conductivity, a key attribute for applications in fuel cells, sensors ...

A new study published in Engineering by Xin Wang, Jian Yao, Jin Zhang and their colleagues proposes a machine-learning-guided strategy that combines ...

Proton conducting composite electrolytes represent a promising class of materials for intermediate temperature fuel cells, bridging the performance gap between low‐ and high‐temperature systems.

A new physical model developed by researchers at the Massachusetts Institute of Technology (MIT) helps improve predictions of ...

Fuel cells often fall short when it comes to operating at temperatures beyond 100 degrees Celsius owing to their dependence on water as a proton conduction medium. To overcome this issue, a team of ...

Electrochemical devices such as fuel cells are becoming indispensable for new power generation technologies because they can efficiently produce renewable energy. Ceramic proton conductors can be used ...

Tokyo Tech scientists showcased that donor doping within a mother material containing disordered intrinsic oxygen vacancies, as opposed to the commonly employed acceptor doping in vacancy-free ...