High temperature fuel production and thermal material processing driven by concentrated
solar energy has the potential to significantly reduce the fossil fuel dependence of our …

Solar thermochemical processes have the potential to efficiently convert high-temperature
solar heat into storable and transportable chemical fuels such as hydrogen. In such …

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 …

Successful demonstration and promising characterization of a solar reactor pilot plant for
thermal reduction of ZnO as part of a two-step water and CO 2 splitting cycle has been …

Chemical loo** water splitting (CLWS) process using metal oxides or perovskites as
oxygen carriers (OCs), is capable of producing pure H 2 in an efficient, simple, and flexible …

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 …

Aqueous zinc-ion batteries (AZIBs) based on Zn metal anodes are promising candidates for
next-generation energy storage due to their high performance, environmental friendliness …

In this paper, the thermodynamic efficiency analysis of ZnO-based solar-driven
thermochemical H 2 O splitting cycle is performed and compared with the SnO 2-based H 2 …

Doped Li7La3Zr2O12 garnets, oxide-based solids with good Li+ conductivity and
compatibility, show great potential as leading electrolyte material candidates for all-solid …

A key challenge in upgrading bio-oils to renewable fuels and chemicals resides in
develo** effective and versatile hydrogenation systems. Herein, a two-step solar …