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High-Temperature Electrolysis (HTE)
On the role of the zirconia/ceria interface in the degradation of solid oxide electrolysis cells
Submitted by
nnguyen2
on Fri, 05/20/2022 - 12:09
Zhang Q
,
Park B-K
,
Barnett S
,
Voorhees P
. 2020.
On the role of the zirconia/ceria interface in the degradation of solid oxide electrolysis cells
.
Applied Physics Letters. 117:123906.
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Enhancement of Ni-(Y2O3)0.08(ZrO2)0.92 fuel electrode performance by infiltration of Ce0.8Gd0.2O2-: δ nanoparticles
Submitted by
nnguyen2
on Fri, 05/20/2022 - 12:00
Park BKyeong
,
Scipioni R
,
Cox D
,
Barnett SA
. 2020.
Enhancement of Ni-(Y2O3)0.08(ZrO2)0.92 fuel electrode performance by infiltration of Ce0.8Gd0.2O2-: δ nanoparticles
.
Journal of Materials Chemistry A. 8:4099–4106.
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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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The oxygen partial pressure in solid oxide electrolysis cells with multilayer electrolytes
Submitted by
nnguyen2
on Fri, 05/13/2022 - 09:49
Zhang Q
,
Liu Q-Y
,
Park B-K
,
Barnett S
,
Voorhees P
. 2021.
The oxygen partial pressure in solid oxide electrolysis cells with multilayer electrolytes
.
Acta Materialia. 213:116928.
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Scaleup and manufacturability of symmetric-structured metal-supported solid oxide fuel cells
Submitted by
nnguyen2
on Fri, 05/13/2022 - 09:47
Dogdibegovic E
,
Cheng Y
,
Shen F
,
Wang R
,
Hu B
,
Tucker MC
. 2021.
Scaleup and manufacturability of symmetric-structured metal-supported solid oxide fuel cells
.
Journal of Power Sources. 489:229439.
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Regulation of Cathode Mass and Charge Transfer by Structural 3D Engineering for Protonic Ceramic Fuel Cell at 400 °C (Adv. Funct. Mater. 33/2021)
Submitted by
nnguyen2
on Fri, 05/13/2022 - 09:45
Bian W
,
Wu W
,
Gao Y
,
Gomez JY
,
Ding H
,
Tang W
,
Zhou M
,
Ding D
. 2021.
Regulation of Cathode Mass and Charge Transfer by Structural 3D Engineering for Protonic Ceramic Fuel Cell at 400 °C (Adv. Funct. Mater. 33/2021)
.
Advanced Functional Materials. 31:2170244.
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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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