CO 2 conversion to produce useful fuels/chemicals is a promising route for reducing CO 2
emission as well as for exploring the promising energy storage method. To facilitate the …

Conjugated porous polymers (CPPs) are a class of fully crosslinked polymers defined by
high surface area and porosity in the nanometer range, having been traditionally developed …

Using the strongly constrained and appropriately normed (SCAN) and SCAN+ U
approximations for describing electron exchange correlation (XC) within density functional …

Solar thermochemical (STC) processes hold promise as efficient ways to generate
renewable fuels, fuel precursors, or chemical feedstocks using concentrated sunlight …

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

Due to the requirement to develop carbon-free energy, solar energy conversion into
chemical energy carriers is a promising solution. Thermochemical fuel production cycles are …

The solar thermochemical two-step splitting of H2O and CO2 based on metal oxide
compounds is a promising path for clean and efficient generation of hydrogen and …

Solar thermochemical cycles offer a viable option for the production of green synthetic fuels
from CO 2 and H 2 O. Two-step cycles using redox materials consist of a high-temperature …

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 …

Energy supply dominated by fossil energy has been and remains the main cause of carbon
dioxide emissions, the major greenhouse gas leading to the current grave climate change …