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Development of the hybrid sulfur cycle for use with concentrated solar heat. I. Conceptual design
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Gorensek MB
,
Corgnale C
,
Summers WA
. 0.
Development of the hybrid sulfur cycle for use with concentrated solar heat. I. Conceptual design
.
International Journal of Hydrogen Energy. 42(33):20939-20954.
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Control of Heterogeneity in Nanostructured Ce1–xZrxO2 Binary Oxides for Enhanced Thermal Stability and Water Splitting Activity
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Petkovich ND
,
Rudisill SG
,
Venstrom LJ
,
Boman DB
,
Davidson JH
,
Stein A
. 2011.
Control of Heterogeneity in Nanostructured Ce1–xZrxO2 Binary Oxides for Enhanced Thermal Stability and Water Splitting Activity
.
The Journal of Physical Chemistry C. 115(43):21022-21033.
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Considerations in the design of materials for solar-driven fuel production using metal-oxide thermochemical cycles
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Miller JE
,
McDaniel AH
,
Allendorf MD
. 2014.
Considerations in the design of materials for solar-driven fuel production using metal-oxide thermochemical cycles
.
Advanced Energy Materials. 4(2):1300469.
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Concept analysis of an indirect particle-based redox process for solar-driven H2O/CO2 splitting
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Brendelberger S
,
Sattler C
. 2015.
Concept analysis of an indirect particle-based redox process for solar-driven H2O/CO2 splitting
.
Solar Energy. 113:158-170.
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Cobalt Ferrite in YSZ for Use as Reactive Material in Solar Thermochemical Water and Carbon Dioxide Splitting, Part II: Kinetic Modeling
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Allen KM
,
Auyeung N
,
Rahmatian N
,
Klausner JF
,
Coker EN
. 2013.
Cobalt Ferrite in YSZ for Use as Reactive Material in Solar Thermochemical Water and Carbon Dioxide Splitting, Part II: Kinetic Modeling
.
JOM.
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about Cobalt Ferrite in YSZ for Use as Reactive Material in Solar Thermochemical Water and Carbon Dioxide Splitting, Part II: Kinetic Modeling
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CO2 valorisation based on Fe3O4/FeO thermochemical redox reactions using concentrated solar energy
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Abanades S
,
Villafan-Vidales I
. 2012.
CO2 valorisation based on Fe3O4/FeO thermochemical redox reactions using concentrated solar energy
.
International Journal of Energy Research. :n/a-n/a.
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CO<sub>2</sub> and H<sub>2</sub>O Splitting for Thermochemical Production of Solar Fuels Using Nonstoichiometric Ceria and Ceria/Zirconia Solid Solutions
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Le Gal A
,
Abanades S
,
Flamant G
. 2011.
CO
2
and H
2
O Splitting for Thermochemical Production of Solar Fuels Using Nonstoichiometric Ceria and Ceria/Zirconia Solid Solutions
.
Energy & Fuels. 25(10):4836-4845.
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about CO2 and H2O Splitting for Thermochemical Production of Solar Fuels Using Nonstoichiometric Ceria and Ceria/Zirconia Solid Solutions
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Characterization of Two-Step Tin-Based Redox System for Thermochemical Fuel Production from Solar-Driven CO <sub>2</sub> and H <sub>2</sub> O Splitting Cycle
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Levêque G
,
Abanades S
,
Jumas J-C
,
Olivier-Fourcade J
. 2014.
Characterization of Two-Step Tin-Based Redox System for Thermochemical Fuel Production from Solar-Driven CO
2
and H
2
O Splitting Cycle
.
Industrial & Engineering Chemistry Research. 53(14):5668-5677.
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about Characterization of Two-Step Tin-Based Redox System for Thermochemical Fuel Production from Solar-Driven CO 2 and H 2 O Splitting Cycle
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Ceria–zirconia solid solutions (Ce<sub>1–<i>x</i></sub>Zr<sub><i>x</i></sub>O<sub>2−δ</sub>, <i>x</i>≤0.2) for solar thermochemical water splitting: A thermodynamic study
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Hao Y
,
Yang C-K
,
Haile SM
. 2014.
Ceria–zirconia solid solutions (Ce
1–
x
Zr
x
O
2−δ
,
x
≤0.2) for solar thermochemical water splitting: A thermodynamic study
.
Chemistry of Materials. 26(20):6073-6082.
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about Ceria–zirconia solid solutions (Ce1–xZrxO2−δ, x≤0.2) for solar thermochemical water splitting: A thermodynamic study
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Ceria as a Thermochemical Reaction Medium for Selectively Generating Syngas or Methane from H<sub>2</sub>O and CO<sub>2</sub>
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Chueh WC
,
Haile SM
. 2009.
Ceria as a Thermochemical Reaction Medium for Selectively Generating Syngas or Methane from H
2
O and CO
2
.
ChemSusChem. 2(8):735-739.
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