High‐Temperature CO2 Electrolysis in Solid Oxide Electrolysis Cells: Developments, Challenges, and Prospects
High‐temperature CO2 electrolysis in solid‐oxide electrolysis cells (SOECs) could greatly
assist in the reduction of CO2 emissions by electrochemically converting CO2 to valuable …
assist in the reduction of CO2 emissions by electrochemically converting CO2 to valuable …
Ruddlesden–Popper perovskites in electrocatalysis
Electrocatalysis lies in the center of many clean energy conversion and storage
technologies. Developing efficient electrocatalysts to promote the kinetics of the key …
technologies. Developing efficient electrocatalysts to promote the kinetics of the key …
Self-sustainable protonic ceramic electrochemical cells using a triple conducting electrode for hydrogen and power production
The protonic ceramic electrochemical cell (PCEC) is an emerging and attractive technology
that converts energy between power and hydrogen using solid oxide proton conductors at …
that converts energy between power and hydrogen using solid oxide proton conductors at …
Protonic ceramic electrochemical cells for hydrogen production and electricity generation: exceptional reversibility, stability, and demonstrated faradaic efficiency
We demonstrate exceptional performance for steam electrolysis at intermediate
temperatures (500–650° C) using protonic ceramic electrolyte cells comprised of the proton …
temperatures (500–650° C) using protonic ceramic electrolyte cells comprised of the proton …
Review on Ruddlesden–Popper perovskites as cathode for solid oxide fuel cells
Solid oxide fuel cells (SOFC) are highly efficient energy conversion device, but its high
operating temperature (800∼ 1000 C) restricts industrial commercialization. Reducing the …
operating temperature (800∼ 1000 C) restricts industrial commercialization. Reducing the …
Air electrodes and related degradation mechanisms in solid oxide electrolysis and reversible solid oxide cells
This paper reviews the existing literature on the degradation behaviour of different air
electrodes used for solid oxide electrolysis cells (SOECs) and reversible solid oxide cells …
electrodes used for solid oxide electrolysis cells (SOECs) and reversible solid oxide cells …
Heterointerface engineering for enhancing the electrochemical performance of solid oxide cells
Solid oxide cells (SOCs) have the potential to be the most efficient energy storage and
conversion systems. To minimize energy loss due to charge and mass transport associated …
conversion systems. To minimize energy loss due to charge and mass transport associated …
[HTML][HTML] Analysis of solid oxide fuel and electrolysis cells operated in a real-system environment: State-of-the-health diagnostic, failure modes, degradation mitigation …
V Subotić, C Hochenauer - Progress in Energy and Combustion Science, 2022 - Elsevier
Solid oxide cells (SOC) play a major role in strategic visions to achieve decarbonization and
climate-neutrality. With its multifuel capability, this technology has received rapidly growing …
climate-neutrality. With its multifuel capability, this technology has received rapidly growing …
Materials of solid oxide electrolysis cells for H2O and CO2 electrolysis: A review.
P Qiu, C Li, B Liu, D Yan, J Li… - Journal of Advanced …, 2023 - search.ebscohost.com
Reliable and economical energy storage technologies are urgently required to ensure
sustainable energy supply. Hydrogen (H< sub> 2) is an energy carrier that can be produced …
sustainable energy supply. Hydrogen (H< sub> 2) is an energy carrier that can be produced …
High-temperature water oxidation activity of a perovskite-based nanocomposite towards application as air electrode in reversible protonic ceramic cells
Reversible protonic ceramic cells (r-PCCs) can operate alternately in fuel cell and
electrolysis cell modes, while their practical applications are limited due to the lack of air …
electrolysis cell modes, while their practical applications are limited due to the lack of air …