Add to ORKGBecause solar energy is available in large excess relative to current rates of energy consumption, effective conversion of this renewable yet intermittent resource into a transportable and dispatchable chemical fuel may ensure the goal of a sustainable energy future. However, low conversion efficiencies, particularly with CO_2 reduction, as well as utilization of precious materials have limited the practical generation of solar fuels. By using a solar cavity-receiver reactor, we combined the oxygen uptake and release capacity of cerium oxide and facile catalysis at elevated temperatures to thermochemically dissociate CO_2 and H_2O, yielding CO and H_2, respectively. Stable and rapid generation of fuel was demonstrated over 500 cycles...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
According to the recent studies, it is expected that the global energy requirement will increase fro...
Because solar energy is available in large excess relative to current rates of energy consumption, ...
This work addresses the solar-driven thermochemical production of CO and O2 from two-step CO2-splitt...
This work addresses the solar-driven thermochemical production of CO and O2 from two-step CO2-splitt...
ABSTRACT: This work addresses the solar-driven thermochemical production of CO and O-2 from two-step...
This thesis reports on the development, optimization and experimental testing of a solar receiver-re...
AbstractA solar reactor consisting of a cavity-receiver containing a reticulated porous ceramic (RPC...
AbstractThe depleting supply of fossil fuels and rapidly increasing emissions of anthropogenic green...
The redox reactivity of the Li-, Mg-, Ca-, Sr-, Ba-, and Sn-doped ceria (Ce0.9A0.1O2−δ) toward therm...
We present a comprehensive thermodynamic and kinetic analysis of the suitability of cerium oxide (ce...
Solar thermochemical conversion of H2O and captured CO2 is considered for the production of high-val...
Solar thermochemical conversion of H2O and captured CO2 is considered for the production of high-val...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
According to the recent studies, it is expected that the global energy requirement will increase fro...
Because solar energy is available in large excess relative to current rates of energy consumption, ...
This work addresses the solar-driven thermochemical production of CO and O2 from two-step CO2-splitt...
This work addresses the solar-driven thermochemical production of CO and O2 from two-step CO2-splitt...
ABSTRACT: This work addresses the solar-driven thermochemical production of CO and O-2 from two-step...
This thesis reports on the development, optimization and experimental testing of a solar receiver-re...
AbstractA solar reactor consisting of a cavity-receiver containing a reticulated porous ceramic (RPC...
AbstractThe depleting supply of fossil fuels and rapidly increasing emissions of anthropogenic green...
The redox reactivity of the Li-, Mg-, Ca-, Sr-, Ba-, and Sn-doped ceria (Ce0.9A0.1O2−δ) toward therm...
We present a comprehensive thermodynamic and kinetic analysis of the suitability of cerium oxide (ce...
Solar thermochemical conversion of H2O and captured CO2 is considered for the production of high-val...
Solar thermochemical conversion of H2O and captured CO2 is considered for the production of high-val...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
This paper discusses the hydrogen production using a solar driven thermochemical cycle. The thermoch...
According to the recent studies, it is expected that the global energy requirement will increase fro...