Add to ORKGThe ease of transportation and high power density create the basis for hydrocarbon fuels’ privileged position in our energy mix. Therefore processes that use renewable energy sources to produce liquid hydrocarbon fuels from H2O and CO2 are of crucial importance. Concentrated solar radiation can be employed as the only energy source for the renewable production of hydrogen from water either indirectly, e.g. by supplying the electricity for electrolysis, or directly by supplying the necessary heat for thermochemically producing hydrogen and syngas. Among the various thermochemical cycles tested so far for solar-driven hydrogen production via water splitting, those based on redox-pair oxide systems, are directly adaptable to carbon dioxide spl...
International audienceThe solar thermochemical two-step splitting of H2O and CO2 based on metal oxid...
A novel surfactant-assisted synthesis method was developed in our laboratory to enhance the oxygen s...
Copyright © 2013 Friedemann Call et al. This is an open access article distributed under the Creativ...
The ease of transportation and high power density create the basis for hydrocarbon fuels’ privileged...
The Helmholtz Virtual Institute (VI) SolarSynGas brings together expertise from solar energy researc...
To tackle the vision of producing CO2-neutral renewable fuels efficiently and economically via a the...
The Helmholtz Virtual Institute (VI) SolarSynGas brings together expertise from solar energy researc...
According to the recent studies, it is expected that the global energy requirement will increase fro...
Since 2006, ceria is used as a redox reactive material for production of H2, CO, and syngas via a tw...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
The overarching goal of this thesis is to pave the way towards the commercialization of solar-driven...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
International audienceCeria-type materials were investigated as reactive chemical intermediates, in ...
International audienceThe main challenges and obstacles to the development of hydrogen/carbon monoxi...
International audienceThe solar thermochemical two-step splitting of H2O and CO2 based on metal oxid...
A novel surfactant-assisted synthesis method was developed in our laboratory to enhance the oxygen s...
Copyright © 2013 Friedemann Call et al. This is an open access article distributed under the Creativ...
The ease of transportation and high power density create the basis for hydrocarbon fuels’ privileged...
The Helmholtz Virtual Institute (VI) SolarSynGas brings together expertise from solar energy researc...
To tackle the vision of producing CO2-neutral renewable fuels efficiently and economically via a the...
The Helmholtz Virtual Institute (VI) SolarSynGas brings together expertise from solar energy researc...
According to the recent studies, it is expected that the global energy requirement will increase fro...
Since 2006, ceria is used as a redox reactive material for production of H2, CO, and syngas via a tw...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
The overarching goal of this thesis is to pave the way towards the commercialization of solar-driven...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
Solar CO2/H2O splitting via two-step thermochemical cycles of metal oxides is a promising path for s...
International audienceCeria-type materials were investigated as reactive chemical intermediates, in ...
International audienceThe main challenges and obstacles to the development of hydrogen/carbon monoxi...
International audienceThe solar thermochemical two-step splitting of H2O and CO2 based on metal oxid...
A novel surfactant-assisted synthesis method was developed in our laboratory to enhance the oxygen s...
Copyright © 2013 Friedemann Call et al. This is an open access article distributed under the Creativ...