Solid oxide cell (SOC) based energy conversion systems have the potential to become the
cleanest and most efficient systems for reversible conversion between electricity and …

Thermochemical water and carbon dioxide splitting with concentrated solar energy is a
technology for converting renewable solar energy into liquid hydrocarbon fuels as an …

Develo** solar technologies for converting CO2 into fuels has become a great energy
challenge, as it closes the anthropogenic carbon cycle and leads to the production of …

The European consortium SOLARJET has experimentally demonstrated the first ever
production of jet fuel via a thermochemical H2O/CO2-splitting cycle using simulated …

Solar thermochemical (STC) redox cycles have made substantial advances in recent years,
in large part due to the utilization of nonstoichiometric ceria over other iron oxide and zinc …

Solar photochemical means of splitting water (artificial photosynthesis) to generate
hydrogen is emerging as a viable process. The solar thermochemical route also promises to …

There are many studies related on the SnO 2/SnO based solar thermochemical water
splitting cycle, however there are still no studies addressing on the detailed thermodynamic …

This work encompasses the thermodynamic characterization of four doped lanthanum
manganites, namely La 0.6 A 0.4 Mn 1− y Al y O 3 (A= Ca, Sr and y= 0, 0.4), all showed to be …

Perovskites AMO3− δ are ideal for thermochemical air separation due to their oxygen
nonstoichiometry δ, which can be varied by changing the temperature and oxygen partial …

Batteries, fuel cells, and supercapacitors are electrochemical devices already on the market
and still need a boost in kinetics to match the high energy density demand of applications …