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High-Temperature Electrolysis (HTE)
High performing triple-conductive Pr2NiO4+δ anode for proton-conducting steam solid oxide electrolysis cell
Submitted by
nnguyen2
on Fri, 05/20/2022 - 16:41
Li W
,
Guan B
,
Ma L
,
Hu S
,
Zhang N
,
Liu X
. 2018.
High performing triple-conductive Pr2NiO4+δ anode for proton-conducting steam solid oxide electrolysis cell
.
Journal of Materials Chemistry A. 6:18057-18066.
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Synergistic Coupling of Proton Conductors BaZr0.1Ce0.7Y0.1Yb0.1O3−δ and La2Ce2O7 to Create Chemical Stable, Interface Active Electrolyte for Steam Electrolysis Cells
Submitted by
nnguyen2
on Fri, 05/20/2022 - 16:38
Li W
,
Guan B
,
Ma L
,
Tian H
,
Liu X
. 2019.
Synergistic Coupling of Proton Conductors BaZr0.1Ce0.7Y0.1Yb0.1O3−δ and La2Ce2O7 to Create Chemical Stable, Interface Active Electrolyte for Steam Electrolysis Cells
.
ACS Applied Materials & Interfaces. 11:18323-18330.
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Progress in Metal-Supported Solid Oxide Fuel Cells and Electrolyzers with Symmetric Metal Supports and Infiltrated Electrodes
Submitted by
nnguyen2
on Fri, 05/20/2022 - 16:34
Dogdibegovic E
,
Shen F
,
Wang R
,
Robinson I
,
Lau GY
,
Tucker MC
. 2019.
Progress in Metal-Supported Solid Oxide Fuel Cells and Electrolyzers with Symmetric Metal Supports and Infiltrated Electrodes
.
ECS Transactions. 91:877–885.
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Metal-Supported Solid Oxide Electrolysis Cell with Significantly Enhanced Catalysis
Submitted by
nnguyen2
on Fri, 05/20/2022 - 16:29
Wang R
,
Dogdibegovic E
,
Lau GY
,
Tucker MC
. 2019.
Metal-Supported Solid Oxide Electrolysis Cell with Significantly Enhanced Catalysis
.
Energy Technology. 7:1801154.
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Ferritic stainless steel interconnects for protonic ceramic electrochemical cell stacks: Oxidation behavior and protective coatings
Submitted by
nnguyen2
on Fri, 05/20/2022 - 16:03
Wang R
,
Sun Z
,
Choi J-P
,
Basu SN
,
Stevenson JW
,
Tucker MC
. 2019.
Ferritic stainless steel interconnects for protonic ceramic electrochemical cell stacks: Oxidation behavior and protective coatings
.
International Journal of Hydrogen Energy. 44:25297-25309.
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Effect of direct-current operation on the electrochemical performance and structural evolution of Ni-YSZ electrodes
Submitted by
nnguyen2
on Fri, 05/20/2022 - 15:58
Liu Q
,
Zhang Q
,
Voorhees PW
,
Barnett SA
. 2019.
Effect of direct-current operation on the electrochemical performance and structural evolution of Ni-YSZ electrodes
.
Journal of Physics: Energy. 2:014006.
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Conditions for stable operation of solid oxide electrolysis cells: oxygen electrode effects
Submitted by
nnguyen2
on Fri, 05/20/2022 - 15:54
Park B-K
,
Zhang Q
,
Voorhees PW
,
Barnett SA
. 2019.
Conditions for stable operation of solid oxide electrolysis cells: oxygen electrode effects
.
Energy Environ. Sci.. 12:3053-3062.
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Advancement of Proton-Conducting Solid Oxide Fuel Cells and Solid Oxide Electrolysis Cells at Idaho National Laboratory (INL)
Submitted by
nnguyen2
on Fri, 05/20/2022 - 15:53
Ding H
,
Wu W
,
Ding D
. 2019.
Advancement of Proton-Conducting Solid Oxide Fuel Cells and Solid Oxide Electrolysis Cells at Idaho National Laboratory (INL)
.
ECS Transactions. 91:1029–1034.
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Understanding of A-site deficiency in layered perovskites: promotion of dual reaction kinetics for water oxidation and oxygen reduction in protonic ceramic electrochemical cells
Submitted by
nnguyen2
on Fri, 05/20/2022 - 15:34
Tang W
,
Ding H
,
Bian W
,
Wu W
,
Li W
,
Liu X
,
Gomez JY
,
Vera CYRegalad
,
Zhou M
,
Ding D
. 2020.
Understanding of A-site deficiency in layered perovskites: promotion of dual reaction kinetics for water oxidation and oxygen reduction in protonic ceramic electrochemical cells
.
J. Mater. Chem. A. 8:14600-14608.
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Self-sustainable protonic ceramic electrochemical cells using a triple conducting electrode for hydrogen and power production
Submitted by
nnguyen2
on Fri, 05/20/2022 - 12:12
Ding H
,
Wu W
,
Jiang C
,
Ding Y
,
Bian W
,
Hu B
,
Singh P
,
Orme CJ
,
Wang L
,
Zhang Y
et al.
. 2020.
Self-sustainable protonic ceramic electrochemical cells using a triple conducting electrode for hydrogen and power production
.
Nature Communications. 11
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