High-temperature (120–200° C) polymer electrolyte membrane fuel cells (HT-PEMFCs) are
promising energy conversion devices that offer multiple advantages over the established …

Hydrogen (H2) produced from renewables will have a growing impact on the global energy
dynamics towards sustainable and carbon‐neutral standards. The share of green H2 is still …

An effective improvement of hydrogen evolution from water splitting under solar light
irradiation was investigated using quantum dots (QDs) compounds loaded onto a Au/TiO 2 …

This work investigates the effect of nitrogen in the anode gas mixture on the performance of
HT-PEMFCs using experiments and simulations. It explores four H 2/N 2 ratios (100/0 …

High-temperature proton-exchange membrane fuel cells (HT-PEMFCs) converted a
significant portion of hydrogen energy into waste heat, causing energy waste. By harvesting …

Modulating the morphological structure and establishing heterogeneous interface of layered
double hydroxides (LDHs) are feasible strategies in electrocatalytic oxygen evolution …

The integration of reformers into high-temperature polymer electrolyte membrane (HT-PEM)
fuel cells presents a significant opportunity to improve fuel flexibility and cost-effectiveness …

This study focuses on investigating the performance change of a high temperature proton
exchange membrane fuel cell (HT-PEMFCs) stack at different operation modes. A HT …

Abstract CeO 2–ZrO 2–Al 2 O 3 composite oxides supported palladium catalysts (Pd/CZA)
are promising candidates for catalytic oxidation reactions. However, the efficient and stable …

Engineering failure of membrane electrode assembly caused by increasingly fuel poisoning
in the high temperature polymer electrolyte membrane fuel cells fed with humidified …