Potential of solar thermochemical water-splitting cycles: A review
Hydrogen fuel is a valuable tool to achieve the energy transition process, and according to
the 2050 net zero emissions scenario its demand is expected to increase by more than 530 …
the 2050 net zero emissions scenario its demand is expected to increase by more than 530 …
Redox cycles, active materials, and reactors applied to water and carbon dioxide splitting for solar thermochemical fuel production: A review
S Abanades - Energies, 2022 - mdpi.com
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 …
compounds is a promising path for clean and efficient generation of hydrogen and …
Defect engineered efficient catalytic transfer hydrogenation of furfural to furfuryl alcohol in ethanol by Co-doped LaMnO3
As energy and CO 2 concerns have become important aspects of scientific research,
researchers are focusing on the development of alternative and green energies. Biomass is …
researchers are focusing on the development of alternative and green energies. Biomass is …
Chemical insights on the activity of La1-xSrxFeO3 perovskites for chemical looping reforming of methane coupled with CO2-splitting
Abstract Coupling Chemical Looping Reforming of methane with CO 2-splitting reactions
represents an attractive route to achieve continuous syngas and CO productivities with …
represents an attractive route to achieve continuous syngas and CO productivities with …
Photothermocatalytic Dry Reforming of Methane for Efficient CO2 Reduction and Solar Energy Storage
S Wu, Y Li, Q Hu, J Wu, Q Zhang - ACS Sustainable Chemistry & …, 2021 - ACS Publications
Energy shortage and global warming owing to greenhouse gas (CO2) discharge in
enormous quantities are two major global strategic issues. Photocatalytic solar fuel …
enormous quantities are two major global strategic issues. Photocatalytic solar fuel …
[HTML][HTML] Enhanced performance of CH4 dry reforming over La0. 9Sr0. 1FeO3/YSZ under chemical looping conditions
Catalytic dry reforming of methane is an attractive route for CO 2 valorization that yields
syngas (CO+ H 2) for subsequent synthesis of chemical and fuels. Alternatively, chemical …
syngas (CO+ H 2) for subsequent synthesis of chemical and fuels. Alternatively, chemical …
La0.6Sr0.4Cr0.8Co0.2O3 Perovskite Decorated with Exsolved Co Nanoparticles for Stable CO2 Splitting and Syngas Production
Exsolution is an auspicious processing route for the fabrication of catalytically active
nanoparticles that are anchored into the oxide backbone, presenting inherent long-term …
nanoparticles that are anchored into the oxide backbone, presenting inherent long-term …
Efficient generation of hydrogen by two-step thermochemical cycles: Successive thermal reduction and water splitting reactions using equal-power microwave …
Y Gao, Y Mao, Z Song, X Zhao, J Sun, W Wang… - Applied Energy, 2020 - Elsevier
Hydrogen production through two-step thermochemical water splitting cycle based on metal
oxide has emerged as a promising strategy to store dilute and intermittent solar energy …
oxide has emerged as a promising strategy to store dilute and intermittent solar energy …
Thermochemical CO2 reduction over NiFe2O4@ alumina filled reactor heated by high-flux solar simulator
This paper investigated CO 2 utilization into energy density chemical using NiFe 2 O 4@
Alumina support porous-medium filled reactor heated by high-flux solar simulator. A …
Alumina support porous-medium filled reactor heated by high-flux solar simulator. A …
Efficient CO2 to CO conversion at moderate temperatures enabled by the cobalt and copper co-doped ferrite oxygen carrier
Chemical looping technology holds great potential on efficient CO 2 splitting with much
higher CO production and CO 2 splitting rate than photocatalytic processes. Conventional …
higher CO production and CO 2 splitting rate than photocatalytic processes. Conventional …