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Protonic ceramic electrochemical cells
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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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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Revitalizing interface in protonic ceramic cells by acid etch
Submitted by
nnguyen2
on Thu, 05/12/2022 - 09:34
Bian W
,
Wu W
,
Wang B
,
Tang W
,
Zhou M
,
Jin C
,
Ding H
,
Fan W
,
Dong Y
,
Li J
et al.
. 2022.
Revitalizing interface in protonic ceramic cells by acid etch
.
Nature. 604:479-485.
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Hydrogen Production: 3D Self-Architectured Steam Electrode Enabled Efficient and Durable Hydrogen Production in a Proton-Conducting Solid Oxide Electrolysis Cell at Temperatures Lower Than 600 °C (Adv. Sci. 11/2018)
Submitted by
drupaladmin
on Tue, 08/18/2020 - 14:10
Wu W
,
Ding H
,
Zhang Y
,
Ding Y
,
Katiyar P
,
Majumdar PK
,
He T
,
Ding D
. 2018.
Hydrogen Production: 3D Self-Architectured Steam Electrode Enabled Efficient and Durable Hydrogen Production in a Proton-Conducting Solid Oxide Electrolysis Cell at Temperatures Lower Than 600 °C (Adv. Sci. 11/2018)
.
Advanced Science. 5(11):1870070.
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about Hydrogen Production: 3D Self-Architectured Steam Electrode Enabled Efficient and Durable Hydrogen Production in a Proton-Conducting Solid Oxide Electrolysis Cell at Temperatures Lower Than 600 °C (Adv. Sci. 11/2018)
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Cobalt-substituted SrTi0.3Fe0.7O3−δ: a stable high-performance oxygen electrode material for intermediate-temperature solid oxide electrochemical cells
Submitted by
drupaladmin
on Tue, 08/18/2020 - 14:01
Zhang S-L
,
Wang H
,
Lu MY
,
Zhang A-P
,
Mogni LV
,
Liu Q
,
Li C-X
,
Li C-J
,
Barnett SA
. 2018.
Cobalt-substituted SrTi0.3Fe0.7O3−δ: a stable high-performance oxygen electrode material for intermediate-temperature solid oxide electrochemical cells
.
Energy & Environmental Science. 11(7):1870-1879.
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Assessment of co-sintering as a fabrication approach for metal-supported proton-conducting solid oxide cells
Submitted by
drupaladmin
on Tue, 08/18/2020 - 13:42
Wang R
,
Byrne C
,
Tucker MC
. 2019.
Assessment of co-sintering as a fabrication approach for metal-supported proton-conducting solid oxide cells
.
Solid State Ionics. 332:25-33.
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Approaches for co-sintering metal-supported proton-conducting solid oxide cells with Ba(Zr,Ce,Y,Yb)O3-δ electrolyte
Submitted by
drupaladmin
on Tue, 08/18/2020 - 13:08
Wang R
,
Lay GY
,
Ding D
,
Zhu T
. 2019.
Approaches for co-sintering metal-supported proton-conducting solid oxide cells with Ba(Zr,Ce,Y,Yb)O3-δ electrolyte
.
International Journal of Hydrogen Energy. 44(26):13768-13776.
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about Approaches for co-sintering metal-supported proton-conducting solid oxide cells with Ba(Zr,Ce,Y,Yb)O3-δ electrolyte
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