Materials degradation of solid oxide electrolysis cells

K Chen - Journal of The Electrochemical Society, 2016 - iopscience.iop.org
Renewable energy sources such as solar and wind power are important for the future
energy supply chain, but require suitable energy storage and conversion technologies due …

Evolution of the electrochemical interface in high-temperature fuel cells and electrolysers

JTS Irvine, D Neagu, MC Verbraeken… - Nature Energy, 2016 - nature.com
The critical region determining the performance and lifetime of solid oxide electrochemical
systems is normally at the electrode side of the electrode/electrolyte interface. Typically this …

A 4 × 4 cm2 Nanoengineered Solid Oxide Electrolysis Cell for Efficient and Durable Hydrogen Production

X Tong, S Ovtar, K Brodersen… - … applied materials & …, 2019 - ACS Publications
Despite various advantages of high-temperature solid oxide electrolysis cells (SOECs) over
their low-temperature competitors, the insufficient long-term durability has prevented the …

Microstructure tailoring of solid oxide electrolysis cell air electrode to boost performance and long-term durability

S Kim, DW Joh, DY Lee, J Lee, HS Kim… - Chemical Engineering …, 2021 - Elsevier
High-temperature solid oxide electrolysis cells (SOECs) offer higher efficiency compared to
other electrochemical water splitting technologies and potentially could provide future …

(La0. 8Sr0. 2) 0.98 MnO3-δ-Zr0. 92Y0. 16O2-δ: PrOx for oxygen electrode supported solid oxide cells

T Yang, SL Kollasch, J Grimes, A Xue… - Applied Catalysis B …, 2022 - Elsevier
Abstract (La 0.8 Sr 0.2) 0.98 MnO 3-δ (LSM)-Zr 0.92 Y 0.16 O 2-δ (YSZ) has been widely
studied as the cathode for solid oxide fuel cells (SOFCs), but its low activity has been a cell …

Conditions for stable operation of solid oxide electrolysis cells: oxygen electrode effects

BK Park, Q Zhang, PW Voorhees… - Energy & Environmental …, 2019 - pubs.rsc.org
Solid oxide electrolysis cells (SOECs) convert renewable electricity to fuels with efficiency
substantially higher than other electrolysis technologies. However, questions remain …

La2NiO4+ δ as electrode material for solid oxide fuel cells and electrolyzer cells

A Egger, N Schrödl, C Gspan, W Sitte - Solid State Ionics, 2017 - Elsevier
In this work, the mixed ionic-electronic conducting ceramic La 2 NiO 4+ δ is investigated with
respect to its applicability as SOFC cathode as well as SOEC anode material on the basis of …

Electrochemical performance and stability of SrTi0. 3Fe0. 6Co0. 1O3-δ infiltrated La0. 8Sr0. 2MnO3Zr0. 92Y0. 16O2-δ oxygen electrodes for intermediate-temperature …

SL Zhang, H Wang, MY Lu, CX Li, CJ Li… - Journal of Power …, 2019 - Elsevier
Abstract The La 0.8 Sr 0.2 MnO 3 single bondZr 0.92 Y 0.16 O 2-δ (LSM-YSZ) composite is
the most widely used oxygen electrode for solid oxide electrochemical cells (SOCs) …

Synthesis and characterization of Nanocrystalline Ba0· 6Sr0· 4Co0· 8Fe0· 2O3 for application as an efficient anode in solid oxide electrolyser cell

S Dey, J Mukhopadhyay, RK Lenka, PK Patro… - International Journal of …, 2020 - Elsevier
Abstract Nanocrystalline Ba 0· 6 Sr 0· 4 Co 0· 8 Fe 0· 2 O 3 (BSCF-6482) powder is
synthesized by combustion synthesis technique. Powder calcined at 1000° C reveals phase …

Reversible operation performance of microtubular solid oxide cells with a nickelate-based oxygen electrode

MA Morales-Zapata, A Larrea… - International Journal of …, 2020 - Elsevier
This paper describes the reversible operation of a highly efficient microtubular solid oxide
cell (SOC) with a nickelate-based oxygen electrode. The fuel cell was composed of a …