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Degradation of solid oxide electrolysis cells: Phenomena, mechanisms, and emerging mitigation strategies—A review
Submitted by
nnguyen2
on Fri, 05/20/2022 - 11:54
Wang Y
,
Li W
,
Ma L
,
Li W
,
Liu X
. 2020.
Degradation of solid oxide electrolysis cells: Phenomena, mechanisms, and emerging mitigation strategies—A review
.
Journal of Materials Science & Technology. 55:35-55.
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Deconvolution of Water-Splitting on the Triple-Conducting Ruddlesden–Popper-Phase Anode for Protonic Ceramic Electrolysis Cells
Submitted by
nnguyen2
on Fri, 05/13/2022 - 10:06
Tian H
,
Li W
,
Ma L
,
Yang T
,
Guan B
,
Shi W
,
Kalapos TL
,
Liu X
. 2020.
Deconvolution of Water-Splitting on the Triple-Conducting Ruddlesden–Popper-Phase Anode for Protonic Ceramic Electrolysis Cells
.
ACS Applied Materials & Interfaces. 12:49574-49585.
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Triple ionic–electronic conducting oxides for next-generation electrochemical devices
Submitted by
nnguyen2
on Fri, 05/13/2022 - 10:01
Papac M
,
Stevanović V
,
Zakutayev A
,
O’Hayre R
. 2020.
Triple ionic–electronic conducting oxides for next-generation electrochemical devices
.
Nature Materials. 20
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Modeling Electrokinetics of Oxygen Electrodes in Solid Oxide Electrolyzer Cells
Submitted by
nnguyen2
on Fri, 05/13/2022 - 09:32
Cook K
,
Wrubel J
,
Ma Z
,
Huang K
,
Jin X
. 2021.
Modeling Electrokinetics of Oxygen Electrodes in Solid Oxide Electrolyzer Cells
.
Journal of The Electrochemical Society. 168:114510.
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Layer-structured triple-conducting electrocatalyst for water-splitting in protonic ceramic electrolysis cells: Conductivities vs. activity
Submitted by
nnguyen2
on Fri, 05/13/2022 - 09:28
Li W
,
Guan B
,
Yang T
,
Li Z
,
Shi W
,
Tian H
,
Ma L
,
Kalapos TL
,
Liu X
. 2021.
Layer-structured triple-conducting electrocatalyst for water-splitting in protonic ceramic electrolysis cells: Conductivities vs. activity
.
Journal of Power Sources. 495:229764.
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High Temperature Electrolysis for Hydrogen Production from Nuclear Energy – TechnologySummary
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
O'Brien J.E
,
Stoots C.M
,
Herring J.S
,
McKellar M.G
,
Harvego E.A
,
Sohal M.S
,
Condie K.G
. 0.
High Temperature Electrolysis for Hydrogen Production from Nuclear Energy – TechnologySummary
.
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Proton conduction in sintered oxides and its application to steam electrolysis for hydrogen production
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Iwahara H.
,
Esaka T.
,
Uchida H.
,
Maeda N.
. 0.
Proton conduction in sintered oxides and its application to steam electrolysis for hydrogen production
.
Solid State Ionics. 3-4:359-363.
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Recent advances in high temperature electrolysis using solid oxide fuel cells: A review
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Laguna-Bercero M.A
. 0.
Recent advances in high temperature electrolysis using solid oxide fuel cells: A review
.
Journal of Power Sources. 203:4-16.
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Hydrogen Production From Water Electrolysis: Current Status and Future Trends
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Ursua A.
,
Gandia L.M
,
Sanchis P.
. 0.
Hydrogen Production From Water Electrolysis: Current Status and Future Trends
.
Proceedings of the IEEE. 100(2):410-426.
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Current developments in reversible solid oxide fuel cells
Submitted by
Anonymous (not verified)
on Thu, 08/13/2020 - 12:25
Gómez SYesid
,
Hotza D
. 2016.
Current developments in reversible solid oxide fuel cells
.
Renewable and Sustainable Energy Reviews. 61:155-174.
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