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Solar Thermochemical (STCH)
Physical descriptor for the Gibbs energy of inorganic crystalline solids and temperature-dependent materials chemistry
Submitted by
drupaladmin
on Thu, 08/20/2020 - 09:30
Bartel CJ
,
Millican SL
,
Deml AM
,
Rumptz JR
,
Tumas W
,
Weimer AW
,
Lany S
,
Stevanović V
,
Musgrave CB
,
Holder AM
. 2018.
Physical descriptor for the Gibbs energy of inorganic crystalline solids and temperature-dependent materials chemistry
.
Nature Communications. 9(1):4168.
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Phase Identification of the Layered Perovskite CexSr2–xMnO4 and Application for Solar Thermochemical Water Splitting
Submitted by
drupaladmin
on Thu, 08/20/2020 - 09:13
Barcellos DR
,
Coury FG
,
Emery A
,
Sanders M
,
Tong J
,
McDaniel A
,
Wolverton C
,
Kaufman M
,
O'Hayre R
. 2019.
Phase Identification of the Layered Perovskite CexSr2–xMnO4 and Application for Solar Thermochemical Water Splitting
.
Inorganic Chemistry. 58(12):7705-7714.
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about Phase Identification of the Layered Perovskite CexSr2–xMnO4 and Application for Solar Thermochemical Water Splitting
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New tolerance factor to predict the stability of perovskite oxides and halides
Submitted by
drupaladmin
on Thu, 08/20/2020 - 09:05
Bartel CJ
,
Sutton C
,
Goldsmith BR
,
Ouyang R
,
Musgrave CB
,
Ghiringhelli LM
,
Scheffler M
. 2019.
New tolerance factor to predict the stability of perovskite oxides and halides
.
Science Advances. 5(2):eaav0693.
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HydroGEN Overview: A Consortium on Advanced Water Splitting Materials (AWSM)
Submitted by
drupaladmin
on Thu, 08/20/2020 - 08:52
Dinh HN
,
Boardman R
,
McDaniel A.H.
,
Colon-Mercado H
,
Ogitsu T.
,
Weber A.Z.
. 2019.
HydroGEN Overview: A Consortium on Advanced Water Splitting Materials (AWSM)
.
FY 2018 DOE Hydrogen and Fuel Cells Program Annual Progress Report.
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about HydroGEN Overview: A Consortium on Advanced Water Splitting Materials (AWSM)
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Evaluating transition metal oxides within DFT-SCAN and $\text{SCAN}+U$ frameworks for solar thermochemical applications
Submitted by
drupaladmin
on Thu, 08/20/2020 - 08:44
Gautam GSai
,
Carter EA
. 2018.
Evaluating transition metal oxides within DFT-SCAN and $\text{SCAN}+U$ frameworks for solar thermochemical applications
.
Physical Review Materials. 2(9):095401.
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Kinetics and mechanism of solar-thermochemical H<sub>2</sub> production by oxidation of a cobalt ferrite–zirconia composite
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Scheffe JR
,
McDaniel AH
,
Allendorf MD
,
Weimer AW
. 2013.
Kinetics and mechanism of solar-thermochemical H
2
production by oxidation of a cobalt ferrite–zirconia composite
.
Energy & Environmental Science. 6(3):963.
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BaCe <sub>0.25</sub> Mn <sub>0.75</sub> O <sub>3−δ</sub> —a promising perovskite-type oxide for solar thermochemical hydrogen production
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Barcellos DR
,
Sanders MD
,
Tong J
,
McDaniel AH
,
O’Hayre RP
. 2018.
BaCe
0.25
Mn
0.75
O
3−δ
—a promising perovskite-type oxide for solar thermochemical hydrogen production
.
Energy & Environmental Science.
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about BaCe 0.25 Mn 0.75 O 3−δ —a promising perovskite-type oxide for solar thermochemical hydrogen production
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Communication: The electronic entropy of charged defect formation and its impact on thermochemical redox cycles
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Lany S
. 2018.
Communication: The electronic entropy of charged defect formation and its impact on thermochemical redox cycles
.
The Journal of Chemical Physics. 148(7):071101.
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