This work addresses the solar-driven thermochemical production of CO and O 2 from two-
step CO 2-splitting cycles, using both ceria granules prepared from cork templates (CG) and …

This review explores the advances in the synthesis of ceria materials with specific
morphologies or porous macro-and microstructures for the solar-driven production of carbon …

Thermochemical splitting of H 2 O and CO 2 applying redox materials constitutes a
sustainable option for synthetic fuel production and CO 2 valorization. It consists of two-step …

Water splitting by solar energy-driven two-step thermochemical cycles is a promising
approach for large-scale production of renewable fuels (eg hydrogen). The key challenge is …

Solar thermochemical conversion of H2O and captured CO2 is considered for the production
of high-value solar fuels and CO2 valorization, using nonstoichiometric oxygen-exchange …

Solar thermochemical H 2 O and CO 2 splitting cycles represent an efficient route for
converting high temperature concentrated solar heat into valuable chemical energy carriers …

Efficient heat transfer of concentrated solar energy and rapid chemical kinetics are desired
characteristics of solar thermochemical redox cycles for splitting CO2. We have fabricated …

The solar thermochemical splitting of CO2 and H2O with ceria and Zr-doped ceria for CO
and H2 production is considered. The two-step process is composed of the thermal …

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

A solar cavity-receiver containing a reticulated porous ceramic (RPC) foam made of pure
CeO2 has been experimentally investigated for CO2 splitting via thermochemical redox …